nettoyage
This commit is contained in:
Antoine PerreaultE
@@ -43,85 +43,85 @@ import frc.robot.subsystems.Limelight3G;
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import frc.robot.subsystems.Pince;
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public class RobotContainer {
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private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond); // kSpeedAt12Volts desired top speed
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private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond); // 3/4 of a rotation per second max angular velocity
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private double MaxSpeed = TunerConstants.kSpeedAt12Volts.in(MetersPerSecond); // kSpeedAt12Volts desired top speed
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private double MaxAngularRate = RotationsPerSecond.of(0.75).in(RadiansPerSecond); // 3/4 of a rotation per second max angular velocity
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/* Setting up bindings for necessary control of the swerve drive platform */
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private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
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.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1) // Add a 10% deadband
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.withDriveRequestType(DriveRequestType.OpenLoopVoltage); // Use open-loop control for drive motors
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/* Setting up bindings for necessary control of the swerve drive platform */
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private final SwerveRequest.FieldCentric drive = new SwerveRequest.FieldCentric()
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.withDeadband(MaxSpeed * 0.1).withRotationalDeadband(MaxAngularRate * 0.1) // Add a 10% deadband
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.withDriveRequestType(DriveRequestType.OpenLoopVoltage); // Use open-loop control for drive motors
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private final Telemetry logger = new Telemetry(MaxSpeed);
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private final Telemetry logger = new Telemetry(MaxSpeed);
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private final CommandXboxController manette1 = new CommandXboxController(0);
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private final CommandXboxController manette2 = new CommandXboxController(1);
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public final CommandSwerveDrivetrain drivetrain = TunerConstants.createDrivetrain();
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Elevateur elevateur = new Elevateur();
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Pince pince = new Pince();
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ElevateurManuel elevateurManuel = new ElevateurManuel(elevateur, manette2::getLeftY);
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PinceManuel pinceManuel = new PinceManuel(pince);
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PinceManuel2 pinceManuel2 = new PinceManuel2(pince);
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private final SendableChooser<Command> autoChooser;
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Bougie bougie = new Bougie();
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Limelight3G limelight3g = new Limelight3G();
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Limelight3 limelight3 = new Limelight3();
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Pose2d pose = new Pose2d();
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private final Pigeon2 gyro = new Pigeon2(13); // ID du Pigeon 2
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private final CommandXboxController manette1 = new CommandXboxController(0);
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private final CommandXboxController manette2 = new CommandXboxController(1);
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public final CommandSwerveDrivetrain drivetrain = TunerConstants.createDrivetrain();
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Elevateur elevateur = new Elevateur();
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Pince pince = new Pince();
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ElevateurManuel elevateurManuel = new ElevateurManuel(elevateur, manette2::getLeftY);
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PinceManuel pinceManuel = new PinceManuel(pince);
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PinceManuel2 pinceManuel2 = new PinceManuel2(pince);
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private final SendableChooser<Command> autoChooser;
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Bougie bougie = new Bougie();
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Limelight3G limelight3g = new Limelight3G();
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Limelight3 limelight3 = new Limelight3();
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Pose2d pose = new Pose2d();
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private final Pigeon2 gyro = new Pigeon2(13); // ID du Pigeon 2
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public double getAngle() {
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return gyro.getYaw().getValueAsDouble(); // Retourne l'angle actuel du robot
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}
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public RobotContainer() {
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autoChooser = AutoBuilder.buildAutoChooser("New Auto");
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SmartDashboard.putData("Auto Mode", autoChooser);
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configureBindings();
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NamedCommands.registerCommand("AprilTag", new AprilTag3G(limelight3g, drivetrain, null, null));
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}
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private void configureBindings() {
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elevateur.setDefaultCommand(new RunCommand(()->{
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elevateur.vitesse(MathUtil.applyDeadband(manette2.getLeftY(), 0.2));
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}, elevateur));
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pince.setDefaultCommand(new RunCommand(()->{
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pince.pivote(MathUtil.applyDeadband(manette2.getRightY()/5, 0.2));
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}, pince));
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// Note that X is defined as forward according to WPILib convention,
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// and Y is defined as to the left according to WPILib convention.
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drivetrain.setDefaultCommand(
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// Drivetrain will execute this command periodically
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drivetrain.applyRequest(() ->
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drive.withVelocityX(MathUtil.applyDeadband(-manette1.getLeftY()*MaxSpeed, 0.2)) // Drive forward with negative Y (forward)
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.withVelocityY(MathUtil.applyDeadband(-manette1.getLeftX()*MaxSpeed, 0.2)) // Drive left with negative X (left)
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.withRotationalRate(MathUtil.applyDeadband(-manette1.getRightX()*MaxAngularRate, 0.15)) // Drive counterclockwise with negative X (left)
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)
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);
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public double getAngle() {
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return gyro.getYaw().getValueAsDouble(); // Retourne l'angle actuel du robot
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}
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public RobotContainer() {
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autoChooser = AutoBuilder.buildAutoChooser("New Auto");
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SmartDashboard.putData("Auto Mode", autoChooser);
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configureBindings();
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NamedCommands.registerCommand("AprilTag", new AprilTag3G(limelight3g, drivetrain, null, null));
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}
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private void configureBindings() {
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// Elevateur manuel
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elevateur.setDefaultCommand(new RunCommand(()->{
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elevateur.vitesse(MathUtil.applyDeadband(manette2.getLeftY(), 0.2));
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}, elevateur));
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//Pince manuel
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pince.setDefaultCommand(new RunCommand(()->{
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pince.pivote(MathUtil.applyDeadband(manette2.getRightY()/5, 0.2));
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}, pince));
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// Note that X is defined as forward according to WPILib convention,
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// and Y is defined as to the left according to WPILib convention.
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drivetrain.setDefaultCommand(
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// Drivetrain will execute this command periodically
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drivetrain.applyRequest(() ->
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drive.withVelocityX(MathUtil.applyDeadband(-manette1.getLeftY()*MaxSpeed, 0.2)) // Drive forward with negative Y (forward)
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.withVelocityY(MathUtil.applyDeadband(-manette1.getLeftX()*MaxSpeed, 0.2)) // Drive left with negative X (left)
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.withRotationalRate(MathUtil.applyDeadband(-manette1.getRightX()*MaxAngularRate, 0.15)) // Drive counterclockwise with negative X (left)
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)
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);
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// reset the field-centric heading on left bumper press
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manette1.start().onTrue(drivetrain.runOnce(() -> drivetrain.seedFieldCentric()));
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manette1.leftTrigger().whileTrue(new AprilTag3(limelight3,drivetrain,manette1::getLeftX,manette1::getLeftY));
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manette1.rightTrigger().whileTrue(new Forme3(limelight3,drivetrain,manette1::getLeftX,manette1::getLeftY));
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manette1.a().whileTrue(new reset(elevateur,pince));
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manette1.b().whileTrue(new L2(elevateur, pince));
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// manette2.leftTrigger().whileTrue(new AprilTag3G(limelight3g,drivetrain,manette1::getLeftX,manette1::getLeftY));
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drivetrain.registerTelemetry(logger::telemeterize);
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}
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// reset the field-centric heading on left bumper press
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manette1.start().onTrue(drivetrain.runOnce(() -> drivetrain.seedFieldCentric()));
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manette1.leftTrigger().whileTrue(new AprilTag3(limelight3,drivetrain,manette1::getLeftX,manette1::getLeftY));
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manette1.rightTrigger().whileTrue(new Forme3(limelight3,drivetrain,manette1::getLeftX,manette1::getLeftY));
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manette1.a().whileTrue(new reset(elevateur,pince));
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manette1.b().whileTrue(new L2(elevateur, pince));
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// manette2.leftTrigger().whileTrue(new AprilTag3G(limelight3g,drivetrain,manette1::getLeftX,manette1::getLeftY));
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drivetrain.registerTelemetry(logger::telemeterize);
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}
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public Command getAutonomousCommand() {
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return new SequentialCommandGroup(Commands.runOnce(()->{
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boolean flip = DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Red;
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if(flip){
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drivetrain.resetPose(FlippingUtil.flipFieldPose(((PathPlannerAuto)autoChooser.getSelected()).getStartingPose()));
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}
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else{
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drivetrain.resetPose(((PathPlannerAuto)autoChooser.getSelected()).getStartingPose());
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}
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}),autoChooser.getSelected(), new RainBow(bougie));
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}
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}
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return new SequentialCommandGroup(Commands.runOnce(()->{
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boolean flip = DriverStation.getAlliance().orElse(Alliance.Blue) == Alliance.Red;
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if(flip){
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drivetrain.resetPose(FlippingUtil.flipFieldPose(((PathPlannerAuto)autoChooser.getSelected()).getStartingPose()));
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}
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else{
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drivetrain.resetPose(((PathPlannerAuto)autoChooser.getSelected()).getStartingPose());
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}
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}),autoChooser.getSelected(), new RainBow(bougie));
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}
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}
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