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/*----------------------------------------------------------------------------*/
/* Copyright (c) 2018-2019 FIRST. All Rights Reserved. */
/* Open Source Software - may be modified and shared by FRC teams. The code */
/* must be accompanied by the FIRST BSD license file in the root directory of */
/* the project. */
/*----------------------------------------------------------------------------*/
package frc4388.robot ;
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// Drive Systems
import edu.wpi.first.wpilibj.DriverStation ;
import edu.wpi.first.cameraserver.CameraServer ;
import edu.wpi.first.wpilibj.GenericHID ;
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import edu.wpi.first.wpilibj.Joystick ;
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import edu.wpi.first.wpilibj.GenericHID.RumbleType ;
import frc4388.utility.controller.XboxController ;
import frc4388.utility.controller.DeadbandedXboxController ;
import frc4388.robot.Constants.OIConstants ;
import edu.wpi.first.wpilibj2.command.button.JoystickButton ;
import edu.wpi.first.wpilibj2.command.button.Trigger ;
import edu.wpi.first.math.geometry.Rotation2d ;
import edu.wpi.first.math.geometry.Translation2d ;
// Commands
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import edu.wpi.first.wpilibj2.command.Command ;
import edu.wpi.first.wpilibj2.command.InstantCommand ;
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import edu.wpi.first.wpilibj2.command.ParallelCommandGroup ;
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import edu.wpi.first.wpilibj2.command.RunCommand ;
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import edu.wpi.first.wpilibj2.command.SequentialCommandGroup ;
import edu.wpi.first.wpilibj2.command.WaitCommand ;
import edu.wpi.first.wpilibj2.command.WaitUntilCommand ;
// Autos
import frc4388.robot.commands.Autos.PlaybackChooser ;
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import frc4388.robot.commands.Swerve.JoystickPlayback ;
import frc4388.robot.commands.Swerve.JoystickRecorder ;
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import frc4388.utility.controller.VirtualController ;
import frc4388.robot.commands.Swerve.neoJoystickPlayback ;
import frc4388.robot.commands.Swerve.neoJoystickRecorder ;
// import frc4388.robot.commands.Intake.ArmIntakeIn;
//import frc4388.robot.commands.Autos.AutoAlign;
// Subsystems
// import frc4388.robot.subsystems.LED;
// import frc4388.robot.subsystems.Limelight;
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import frc4388.robot.subsystems.SwerveDrive ;
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// import frc4388.robot.subsystems.Shooter;
// import frc4388.robot.subsystems.Climber;
// import frc4388.robot.subsystems.Intake;
// Utilites
import frc4388.utility.DeferredBlock ;
import frc4388.utility.configurable.ConfigurableString ;
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/**
* This class is where the bulk of the robot should be declared. Since
* Command-based is a "declarative" paradigm, very little robot logic should
* actually be handled in the {@link Robot} periodic methods (other than the
* scheduler calls). Instead, the structure of the robot (including subsystems,
* commands, and button mappings) should be declared here.
*/
public class RobotContainer {
/* RobotMap */
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public final RobotMap m_robotMap = new RobotMap ( ) ;
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/* Subsystems */
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// private final LED m_robotLED = new LED();
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// private final Intake m_robotIntake = new Intake(m_robotMap.intakeMotor, m_robotMap.pivotMotor);
// public final SwerveDrive m_robotSwerveDrive = new SwerveDrive(m_robotMap.leftFront,
// m_robotMap.rightFront,
// m_robotMap.leftBack,
// m_robotMap.rightBack,
// m_robotMap.gyro);
/* Limelight */
// private final Limelight limelight = new Limelight();
// private final Shooter m_robotShooter = new Shooter(m_robotMap.leftShooter, m_robotMap.rightShooter, limelight);
// private final Climber m_robotClimber = new Climber(m_robotMap.climbMotor);
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/* Controllers */
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private final DeadbandedXboxController m_driverXbox = new DeadbandedXboxController ( OIConstants . XBOX_DRIVER_ID ) ;
private final DeadbandedXboxController m_operatorXbox = new DeadbandedXboxController ( OIConstants . XBOX_OPERATOR_ID ) ;
// private final DeadbandedXboxController m_autoRecorderXbox = new DeadbandedXboxController(2);
/* Virtual Controllers */
// private final VirtualController m_virtualDriver = new VirtualController(0);
// private final VirtualController m_virtualOperator = new VirtualController(1);
// private Command intakeToShootStuff = new ArmIntakeIn(m_robotIntake, m_robotShooter);
// private Command interrupt = new InstantCommand(() -> {}, m_robotIntake, m_robotShooter);
// private SequentialCommandGroup intakeToShoot = new SequentialCommandGroup(
// new InstantCommand(() -> m_robotIntake.PIDIn()),
// new InstantCommand(() -> m_robotShooter.idle())
// // new InstantCommand(() -> m_driverXbox.setRumble(RumbleType.kRightRumble, 1.0)).andThen(new WaitCommand(0.2)).andThen(new InstantCommand(() -> m_driverXbox.setRumble(RumbleType.kRightRumble, 0.0))),
// // new InstantCommand(() -> m_robotShooter.spin())
// );
// ! Teleop Commands
//private AutoAlign autoAlign = new AutoAlign(m_robotSwerveDrive, limelight);
// private SequentialCommandGroup autoShoot = new SequentialCommandGroup(
// // MoveToSpeaker,
// //autoAlign,
// new InstantCommand(() -> m_robotShooter.spin()),
// new WaitCommand(3.0),
// new InstantCommand(() -> m_robotIntake.handoff(), m_robotIntake),
// new WaitCommand(3.0),
// new InstantCommand(() -> m_robotShooter.idle())
// // new InstantCommand(() -> autoAlign.reverse()),
// // autoAlign.asProxy()
// );
// private SequentialCommandGroup i = new SequentialCommandGroup(
// intakeToShootStuff, intakeToShoot,
// new InstantCommand(() -> m_robotShooter.idle())
// );
// private SequentialCommandGroup ejectToShoot = new SequentialCommandGroup(
// new InstantCommand(() -> m_robotShooter.spin(), m_robotShooter),
// new WaitCommand(0.75),
// new InstantCommand(() -> m_robotIntake.handoff(), m_robotIntake)
// );
// private SequentialCommandGroup turnOffShoot = new SequentialCommandGroup(
// new InstantCommand(() -> m_robotShooter.stop(), m_robotShooter)
// // new InstantCommand(() -> m_robotIntake.talonStopIntakeMotors(), m_robotIntake)
// );
// private SequentialCommandGroup emergencyRetract = new SequentialCommandGroup(
// interrupt,
// new InstantCommand(() -> m_robotIntake.PIDIn(), m_robotIntake),
// new InstantCommand(() -> m_robotIntake.stopIntakeMotors(), m_robotIntake)
// );
// private SequentialCommandGroup ampShoot = new SequentialCommandGroup(
// new InstantCommand(() -> m_robotIntake.ampPosition()),
// new InstantCommand(() -> m_robotIntake.ampOuttake(0.1)) //TODO: Find Actual Speed
// );
// ! /* Autos */
// private Command taxi = new JoystickPlayback(m_robotSwerveDrive, "Taxi.txt");
// private String lastAutoName = "final_red_center_4note_taxi.auto";
// private ConfigurableString autoplaybackName = new ConfigurableString("Auto Playback Name", lastAutoName);
// private neoJoystickPlayback autoPlayback = new neoJoystickPlayback(m_robotSwerveDrive,
// () -> autoplaybackName.get(), // lastAutoName
// new VirtualController[]{getVirtualDriverController(), getVirtualOperatorController()},
// true, false);
// private PlaybackChooser playbackChooser = new PlaybackChooser(m_robotSwerveDrive)
// .addOption("Taxi Auto", taxi.asProxy())
// .addOption("One Note Auto Starting in Front of Speaker", oneNoteStartingSpeaker.asProxy())
// .addOption("Stay One Note Auto Starting in Front of Speaker", oneNoteStartingSpeakerStationary.asProxy())
// // .addOption("One Note Auto Starting from Left Position", oneNoteStartingFromLeft.asProxy())
// // .addOption("One Note Auto Starting from Right Position", oneNoteStartingFromRight.asProxy())
// .addOption("Two Note Starting in Front of Speaker", twoNoteStartingFromSpeaker.asProxy())
// .addOption("Stay Two Note Starting in Front of Speaker", stayTwoNoteStartingFromSpeaker.asProxy())
// .buildDisplay();
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/**
* The container for the robot. Contains subsystems, OI devices, and commands.
*/
public RobotContainer ( ) {
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configureButtonBindings ( ) ;
configureVirtualButtonBindings ( ) ;
// new Trigger(() -> autoplaybackName.get().equals(lastAutoName)).onTrue(new InstantCommand(() -> changeAuto()));
// new DeferredBlock(() -> m_robotSwerveDrive.resetGyro());
// DriverStation.silenceJoystickConnectionWarning(true);
// // CameraServer.startAutomaticCapture();
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// /* Default Commands */
// // drives the robot with a two-axis input from the driver controller
// ! Swerve Drive Default Command (Regular Rotation)
// m_robotSwerveDrive.setDefaultCommand(new RunCommand(() -> {
// m_robotMap.rightFront.go(getDeadbandedDriverController().getLeft());
// }
// m_robotSwerveDrive.setDefaultCommand(new RunCommand(() -> {
// m_robotSwerveDrive.driveWithInput(getDeadbandedDriverController().getLeft(),
// getDeadbandedDriverController().getRight(),
// true);
// }, m_robotSwerveDrive)
// .withName("SwerveDrive DefaultCommand"));
// m_robotSwerveDrive.setToSlow();
// ! Swerve Drive Default Command (Orientation Rotation)
// m_robotSwerveDrive.setDefaultCommand(new RunCommand(() -> {
// m_robotSwerveDrive.driveWithInputOrientation(getDeadbandedDriverController().getLeft(),
// getDeadbandedDriverController().getRightX(),
// getDeadbandedDriverController().getRightY(),
// true);
// }, m_robotSwerveDrive)
// .withName("SwerveDrive OrientationCommand"));
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// continually sends updates to the Blinkin LED controller to keep the lights on
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// m_robotLED.setDefaultCommand(new RunCommand(() -> m_robotLED.updateLED(), m_robotLED));
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}
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// private void changeAuto() {
// autoPlayback.unloadAuto();
// autoPlayback.loadAuto();
// lastAutoName = autoplaybackName.get();
// System.out.println("AUTO: Changed auto to; `" + lastAutoName + "`");
// }
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/**
* Use this method to define your button->command mappings. Buttons can be
* created by instantiating a {@link GenericHID} or one of its subclasses
* ({@link edu.wpi.first.wpilibj.Joystick} or {@link XboxController}), and then
* passing it to a {@link edu.wpi.first.wpilibj2.command.button.JoystickButton}.
*/
private void configureButtonBindings ( ) {
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// ? /* Driver Buttons */
// DualJoystickButton(getDeadbandedDriverController(), getVirtualDriverController(), XboxController.A_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.resetGyroFlip(), m_robotSwerveDrive));
// DualJoystickButton(getDeadbandedDriverController(), getVirtualDriverController(), XboxController.BACK_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.resetGyroRightBlue()))
// .onFalse(new InstantCommand(() -> m_robotSwerveDrive.add180()));
// DualJoystickButton(getDeadbandedDriverController(), getVirtualDriverController(), XboxController.START_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.resetGyroRightAmp()))
// .onFalse(new InstantCommand(() -> m_robotSwerveDrive.add180()));
// * /* D-Pad Stuff */
// new Trigger(() -> getDeadbandedDriverController().getRawAxis(XboxController.TOP_BOTTOM_DPAD_AXIS) > 0.9)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(0, 1),
// new Translation2d(0, 0),
// true)))
// .onFalse(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(0, 0),
// new Translation2d(0, 0),
// true)));
// new Trigger(() -> getDeadbandedDriverController().getRawAxis(XboxController.TOP_BOTTOM_DPAD_AXIS) > -0.9)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(0, -1),
// new Translation2d(0, 0),
// true)))
// .onFalse(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(0, 0),
// new Translation2d(0, 0),
// true)));
// new Trigger(() -> getDeadbandedDriverController().getRawAxis(XboxController.LEFT_RIGHT_DPAD_AXIS) > 0.9)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(1, 0),
// new Translation2d(0, 0),
// true)))
// .onFalse(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(0, 0),
// new Translation2d(0, 0),
// true)));
// new Trigger(() -> getDeadbandedDriverController().getRawAxis(XboxController.LEFT_RIGHT_DPAD_AXIS) > -0.9)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(-1, 0),
// new Translation2d(0, 0),
// true)))
// .onFalse(new InstantCommand(() -> m_robotSwerveDrive.driveWithInput(new Translation2d(0, 0),
// new Translation2d(0, 0),
// true)));
// ! /* Auto Recording */
// new JoystickButton(m_autoRecorderXbox, XboxController.LEFT_BUMPER_BUTTON)
// .whileTrue(new neoJoystickRecorder(m_robotSwerveDrive,
// new DeadbandedXboxController[]{getDeadbandedDriverController(), getDeadbandedOperatorController()},
// () -> autoplaybackName.get()))
// .onFalse(new InstantCommand());
// new JoystickButton(m_autoRecorderXbox, XboxController.RIGHT_BUMPER_BUTTON)
// .onTrue(new neoJoystickPlayback(m_robotSwerveDrive,
// () -> autoplaybackName.get(),
// new VirtualController[]{getVirtualDriverController(), getVirtualOperatorController()},
// true, false))
// .onFalse(new InstantCommand());
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// new JoystickButton(getDeadbandedDriverController(), XboxController.RIGHT_BUMPER_BUTTON)
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// .whileTrue(new JoystickRecorder(m_robotSwerveDrive,
// () -> getDeadbandedDriverController().getLeftX(),
// () -> getDeadbandedDriverController().getLeftY(),
// () -> getDeadbandedDriverController().getRightX(),
// () -> getDeadbandedDriverController().getRightY(),
// "Taxi.txt"))
// .onFalse(new InstantCommand());
// new JoystickButton(getDeadbandedDriverController(), XboxController.LEFT_BUMPER_BUTTON)
// .onTrue(new JoystickPlayback(m_robotSwerveDrive, "Taxi.txt"))
// .onFalse(new InstantCommand());
// ! /* Speed */
// new JoystickButton(getDeadbandedDriverController(), XboxController.RIGHT_BUMPER_BUTTON) // final
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.shiftUp()));
// // .onFalse(new InstantCommand(() -> m_robotSwerveDrive.setToFast()));
// new JoystickButton(getDeadbandedDriverController(), XboxController.LEFT_BUMPER_BUTTON) // final
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.shiftDown()));
// new Trigger(() -> getDeadbandedDriverController().getPOV() == 270)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.shiftDownRot()));
// new Trigger(() -> getDeadbandedDriverController().getPOV() == 90)
// .onTrue(new InstantCommand(() -> m_robotSwerveDrive.shiftUpRot()));
// new JoystickButton(getDeadbandedDriverController(), XboxController.Y_BUTTON)
// .whileTrue(new InstantCommand(() ->
// m_robotSwerveDrive.driveWithInput(new Translation2d(0, 1),
// new Translation2d(0, 0),
// true), m_robotSwerveDrive));
//? /* Operator Buttons */
// new Joystick(getDeadbandedOperatorController(), XboxController.Y_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotMap.rightFront.go(new Translation2d())));
// DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.X_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotIntake.PIDOut()))
// .onFalse(new InstantCommand(() -> m_robotIntake.stopArmMotor()));
// DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.A_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotIntake.handoff()))
// .onFalse(new InstantCommand(() -> m_robotIntake.stopIntakeMotors()));
// DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.B_BUTTON)
// .onTrue(emergencyRetract);
// Override Intake Position encoder: out
// new JoystickButton(getDeadbandedOperatorController(), XboxController.BACK_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotIntake.setPivotEncoderPosition(-55), m_robotIntake));
// // Override Intake Position encoder: in
// new JoystickButton(getDeadbandedOperatorController(), XboxController.START_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotIntake.setPivotEncoderPosition(-6.2), m_robotIntake));
// DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.LEFT_BUMPER_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotShooter.spin(0.5), m_robotShooter))
// .onFalse(turnOffShoot);
// DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.RIGHT_BUMPER_BUTTON)
// .onTrue(i)
// .onFalse(new InstantCommand(() -> m_robotIntake.PIDIn()));
// //spins up shooter, no wind down
// DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.LEFT_JOYSTICK_BUTTON)
// .onTrue(new InstantCommand(() -> m_robotShooter.spin(), m_robotShooter));
// // DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.RIGHT_JOYSTICK_BUTTON)
// // .onTrue(new InstantCommand(() -> m_robotIntake.talonSpinIntakeMotor(), m_robotIntake))
// // .onFalse(new InstantCommand(() -> m_robotIntake.talonStopIntakeMotors(), m_robotIntake));
// DualJoystickButton(getDeadbandedOperatorController(), getVirtualOperatorController(), XboxController.RIGHT_JOYSTICK_BUTTON)
// .onTrue(emergencyRetract);
// new Trigger(() -> getDeadbandedOperatorController().getRawAxis(XboxController.RIGHT_TRIGGER_AXIS) > 0.5)
// .onTrue(new InstantCommand(() -> m_robotClimber.climbOut()))
// .onFalse(new InstantCommand(() -> m_robotClimber.stopClimb()));
// new Trigger(() -> getDeadbandedOperatorController().getRawAxis(XboxController.LEFT_TRIGGER_AXIS) > 0.5)
// .onTrue(new InstantCommand(() -> m_robotClimber.climbIn()))
// .onFalse(new InstantCommand(() -> m_robotClimber.stopClimb()));
// new Trigger(() -> getDeadbandedOperatorController().getPOV() == 0)
// .onTrue(new InstantCommand(() -> m_robotIntake.ampOuttake(0.5)));
}
/**
* This method is used to replcate {@link Trigger Triggers} for {@link VirtualController Virtual Controllers}. <p/>
* Please use {@link RobotContainer#DualJoystickButton} in {@link RobotContainer#configureButtonBindings} for standard buttons.
*/
private void configureVirtualButtonBindings ( ) {
// ? /* Driver Buttons */
/* Notice: the following buttons have not been replicated
* Swerve Drive Slow and Fast mode Gear Shifts : Fast mode is known to cause drift, so we disable that feature in Autoplayback
* Swerve Drive Rotation Gear Shifts : Same reason as Slow and Fast mode.
* Auto Recording controls : We don't want an Null Ouroboros for an auto.
*/
// ? /* Operator Buttons */
/* Notice: the following buttons have not been replicated
* Override Intake Position Encoder : It's an emergancy overide, for when the position of intake when the robot boots, the intake is not inside the robot.
* We don't need it in an auto.
* Climbing controls : We don't need to climb in auto.
*/
// new Trigger(() -> getVirtualOperatorController().getRawAxis(XboxController.RIGHT_TRIGGER_AXIS) > 0.5)
// .onTrue(new InstantCommand(() -> m_robotClimber.climbOut()))
// .onFalse(new InstantCommand(() -> m_robotClimber.stopClimb()));
// new Trigger(() -> getVirtualOperatorController().getRawAxis(XboxController.LEFT_TRIGGER_AXIS) > 0.5)
// .onTrue(new InstantCommand(() -> m_robotClimber.climbIn()))
// .onFalse(new InstantCommand(() -> m_robotClimber.stopClimb()));
// new Trigger(() -> getVirtualOperatorController().getPOV() == 0)
// .onTrue(new InstantCommand(() -> m_robotIntake.ampOuttake(0.5)));
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}
/**
* Use this to pass the autonomous command to the main {@link Robot} class.
*
* @return the command to run in autonomous
*/
public Command getAutonomousCommand ( ) {
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//no auto
// return autoPlayback;
//return playbackChooser.getCommand();
return new Command ( ) { } ;
}
/**
* A button binding for two controllers, preferably an {@link DeadbandedXboxController Xbox Controller} and {@link VirtualController Virtual Xbox Controller}
* @param joystickA A controller
* @param joystickB A controller
* @param buttonNumber The button to bind to
*/
public Trigger DualJoystickButton ( GenericHID joystickA , GenericHID joystickB , int buttonNumber ) {
return new Trigger ( ( ) - > ( joystickA . getRawButton ( buttonNumber ) | | joystickB . getRawButton ( buttonNumber ) ) ) ;
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}
/**
* Add your docs here.
*/
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public DeadbandedXboxController getDeadbandedDriverController ( ) {
return this . m_driverXbox ;
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}
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public DeadbandedXboxController getDeadbandedOperatorController ( ) {
return this . m_operatorXbox ;
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}
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// public VirtualController getVirtualDriverController() {
// return m_virtualDriver;
// }
// public VirtualController getVirtualOperatorController() {
// return m_virtualOperator;
// }
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}
