/** * This function is run when the robot is first started up and should be * used for any initialization code. */ public void robotInit() { chooser = new SendableChooser<Command>(); chassis = new Chassis(); intake = new Intake(); winch = new Winch(); // shooter = new Shooter(); oi = new OI(); imu = new ADIS16448_IMU(ADIS16448_IMU.Axis.kX); pdp = new PowerDistributionPanel(); chooser.addDefault("Drive Straight", new DriveStraight(73, 0.5)); //chooser.addObject("Left Gear Curve", new LeftGearCurve()); chooser.addObject("Left Gear Turn", new LeftGearTurn()); //chooser.addObject("Right Gear Curve", new RightGearCurve()); chooser.addObject("Right Gear Turn", new RightGearTurn()); chooser.addObject("Middle Gear", new StraightGear()); chooser.addObject("Turn in place", new TurnDegrees(60, .2)); SmartDashboard.putData("Autonomous Chooser", chooser); }
/** * This autonomous (along with the chooser code above) shows how to select * between different autonomous modes using the dashboard. The sendable * chooser code works with the Java SmartDashboard. If you prefer the * LabVIEW Dashboard, remove all of the chooser code and uncomment the * getString code to get the auto name from the text box below the Gyro * * You can add additional auto modes by adding additional commands to the * chooser code above (like the commented example) or additional comparisons * to the switch structure below with additional strings & commands. */ @Override public void autonomousInit() { mAutonomousCommand = (Command) autoChooser.getSelected(); //mAutonomousCommand.start(); if (mAutonomousCommand != null) mAutonomousCommand.start(); /* * String autoSelected = SmartDashboard.getString("Auto Selector", * "Default"); switch(autoSelected) { case "My Auto": autonomousCommand * = new MyAutoCommand(); break; case "Default Auto": default: * autonomousCommand = new ExampleCommand(); break; } */ /* // schedule the autonomous command (example) if (autonomousCommand != null) autonomousCommand.start(); */ }
public void robotInit() { RobotMap.init(); drivetrain = new Drivetrain(); climber = new Climber(); // fuel = new Fuel(); gear = new Gear(); oi = new OI(); // initializes camera server server = CameraServer.getInstance(); // cameraInit(); // server.startAutomaticCapture(0); // autonomousCommand = (Command) new AutoMiddleHook(); autonomousCommand = (Command) new AutoBaseline(); // resets all sensors resetAllSensors(); if (RobotConstants.isTestingEnvironment) updateTestingEnvironment(); updateSensorDisplay(); }
/** * This autonomous (along with the chooser code above) shows how to select * between different autonomous modes using the dashboard. The sendable * chooser code works with the Java SmartDashboard. If you prefer the * LabVIEW Dashboard, remove all of the chooser code and uncomment the * getString code to get the auto name from the text box below the Gyro * * You can add additional auto modes by adding additional commands to the * chooser code above (like the commented example) or additional comparisons * to the switch structure below with additional strings & commands. */ // @Override public void autonomousInit() { // DEBUG \\ if (RobotConstants.isTestingEnvironment) readTestingEnvironment(); // resets sensors resetAllSensors(); autonomousCommand = (Command) autoChooser.getSelected(); // schedule the autonomous command (example) if (autonomousCommand != null) autonomousCommand.start(); }
/** * This autonomous (along with the chooser code above) shows how to select * between different autonomous modes using the dashboard. The sendable * chooser code works with the Java CustomDashboard. If you prefer the * LabVIEW Dashboard, remove all of the chooser code and uncomment the * getString line to get the auto name from the text box below the Gyro * * You can add additional auto modes by adding additional comparisons to the * switch structure below with additional strings. If using the * SendableChooser make sure to add them to the chooser code above as well. */ @Override public void autonomousInit() { driveTrain.resetEncoders(); driveTrain.resetGyro(); autoSelected = (Command) chooser.getSelected(); if(autoSelected instanceof Initializer) { ((Initializer)autoSelected).init(); } autoSelected.start(); // autoSelected = CustomDashboard.getString("Auto Selector", // defaultAuto); System.out.println("Auto selected: " + autoSelected); pollPreferences(); }
public static ArrayList<Command> takeInput(String movement, boolean isRev, int shooting) { auto_Commands = new ArrayList<Command>(0); if(movement.charAt(0) == 'f') auto_Commands.add(new MoveForward(Double.valueOf(movement.substring(1)))); else if(movement.charAt(0) == 'r') auto_Commands.add(new RotateAngle(Double.valueOf(movement.substring(1)))); else if(movement.charAt(0) == 's') auto_Commands.add(new SpyBot(shooting)); //else if(movement.charAt(0) == 'l') // auto_Commands.add(new CrossLowbar()); if(isRev == true && movement.charAt(0) == 'f') auto_Commands.add(new MoveForward(-0.65*Double.valueOf(movement.substring(1)))); //This has the 0.65 because we don't want to accidentially cross the autoline when we go back return auto_Commands; //an arraylist of the commands to be executed in autonomous }
public void teleopInit() { // This makes sure that the autonomous stops running when // teleop starts running. If you want the autonomous to // continue until interrupted by another command, remove // this line or comment it out. if (autonomousCommand != null) { autonomousCommand.cancel(); } if (Robot.catapult.getPreviousShooterState() != 0) { Robot.catapult.setShooterState(Robot.catapult.getPreviousShooterState()); Command cmd1 = new Shoot(); cmd1.start(); } Robot.robotDrive.setIsInAuto(false); }
/** * Default constructor. * * @param buttons The buttons for controlling this robot. Can be null for an empty list. * @param logger The logger for recording events and telemetry data. * @param updater A runnable that updates cached variables. * @param defaultCommands The default commands for various subsystems. * @param autoStartupCommand The command to be run when first enabled in autonomous mode. * @param teleopStartupCommand The command to be run when first enabled in teleoperated mode. * @param startupCommand The command to be run when first enabled. */ @JsonCreator public RobotMap(@Nullable List<CommandButton> buttons, @NotNull @JsonProperty(required = true) Logger logger, @NotNull @JsonProperty(required = true) MappedRunnable updater, @Nullable List<DefaultCommand> defaultCommands, @Nullable Command autoStartupCommand, @Nullable Command teleopStartupCommand, @Nullable Command startupCommand) { this.buttons = buttons != null ? buttons : new ArrayList<>(); this.logger = logger; this.updater = updater; this.defaultCommands = defaultCommands; this.autoStartupCommand = autoStartupCommand; this.teleopStartupCommand = teleopStartupCommand; this.startupCommand = startupCommand; }
/** * Default constructor. * * @param button The button that triggers the command. * @param command The command to run or cancel. * @param action The action to do to the command. */ @JsonCreator public CommandButton(@NotNull @JsonProperty(required = true) MappedButton button, @NotNull @JsonProperty(required = true) Command command, @NotNull @JsonProperty(required = true) Action action) { switch (action) { case WHILE_HELD: button.whileHeld(command); break; case WHEN_PRESSED: button.whenPressed(command); break; case WHEN_RELEASED: button.whenReleased(command); break; case CANCEL_WHEN_PRESSED: button.cancelWhenPressed(command); break; case TOGGLE_WHEN_PRESSED: button.toggleWhenPressed(command); break; } }
/** * Starts the given command whenever the trigger just becomes active. * * @param command the command to start */ public void whenActive(final Command command) { new ButtonScheduler() { private boolean m_pressedLast = grab(); @Override public void execute() { if (grab()) { if (!m_pressedLast) { m_pressedLast = true; command.start(); } } else { m_pressedLast = false; } } }.start(); }
/** * Constantly starts the given command while the button is held. * * {@link Command#start()} will be called repeatedly while the trigger is active, and will be * canceled when the trigger becomes inactive. * * @param command the command to start */ public void whileActive(final Command command) { new ButtonScheduler() { private boolean m_pressedLast = grab(); @Override public void execute() { if (grab()) { m_pressedLast = true; command.start(); } else { if (m_pressedLast) { m_pressedLast = false; command.cancel(); } } } }.start(); }
/** * Starts the command when the trigger becomes inactive. * * @param command the command to start */ public void whenInactive(final Command command) { new ButtonScheduler() { private boolean m_pressedLast = grab(); @Override public void execute() { if (grab()) { m_pressedLast = true; } else { if (m_pressedLast) { m_pressedLast = false; command.start(); } } } }.start(); }
/** * Toggles a command when the trigger becomes active. * * @param command the command to toggle */ public void toggleWhenActive(final Command command) { new ButtonScheduler() { private boolean m_pressedLast = grab(); @Override public void execute() { if (grab()) { if (!m_pressedLast) { m_pressedLast = true; if (command.isRunning()) { command.cancel(); } else { command.start(); } } } else { m_pressedLast = false; } } }.start(); }
/** * Cancels a command when the trigger becomes active. * * @param command the command to cancel */ public void cancelWhenActive(final Command command) { new ButtonScheduler() { private boolean m_pressedLast = grab(); @Override public void execute() { if (grab()) { if (!m_pressedLast) { m_pressedLast = true; command.cancel(); } } else { m_pressedLast = false; } } }.start(); }
private Command parseDriveToPegUsingVisionCommand(List<String> args) { double timeout = 4; double deadband = 6; if (args.size() >= 2) { timeout = Double.parseDouble(args.get(1)); } if (args.size() >= 3) { deadband = Double.parseDouble(args.get(2)); } return new DriveToPegUsingVision(mSnobot.getVisionManager(), mSnobot.getSnobotActor(), deadband, timeout); }
private Command createTrajectoryCommand(String aFile) { String pathFile = Properties2017.sAUTON_PATH_DIRECTORY.getValue() + "/" + aFile.trim(); TextFileDeserializer deserializer = new TextFileDeserializer(); Path p = deserializer.deserializeFromFile(pathFile); Command output = null; if (p == null) { addError("Could not read path file " + pathFile); } else { output = new TrajectoryPathCommand(mSnobot.getDriveTrain(), mSnobot.getPositioner(), p); } return output; }
private Command createTrajStartToHopper(List<String> args) { StartingPositions startPosition = mPositionChooser.getSelected(); if (startPosition == null) { addError("Invalid starting position"); return null; } boolean doClose = true; if (args.size() > 1 && args.get(1).equals("Far")) { doClose = false; } return TrajectoryStartToHopperFactory.createCommand(mSnobot, startPosition, doClose); }
private Command createTrajGearToHopper(List<String> args) { StartingPositions startPosition = mPositionChooser.getSelected(); if (startPosition == null) { addError("Invalid starting position"); return null; } boolean doClose = true; if (args.size() > 1 && args.get(1).equals("Far")) { doClose = false; } return TrajectoryGearToHopperFactory.createCommand(mSnobot, startPosition, doClose); }
private Command createTurnPathCommand(List<String> args) { PathConfig dudePathConfig = new PathConfig(Double.parseDouble(args.get(1)), // Endpoint Double.parseDouble(args.get(2)), // Max Velocity Double.parseDouble(args.get(3)), // Max Acceleration sEXPECTED_DT); ISetpointIterator dudeSetpointIterator; // TODO create dynamic iterator, way to switch if (true) { dudeSetpointIterator = new StaticSetpointIterator(dudePathConfig); } return new DriveTurnPath(mSnobot.getDriveTrain(), mSnobot.getPositioner(), dudeSetpointIterator); }
private Command createDrivePathCommand(List<String> args) { PathConfig dudePathConfig = new PathConfig(Double.parseDouble(args.get(1)), // Endpoint Double.parseDouble(args.get(2)), // Max Velocity Double.parseDouble(args.get(3)), // Max Acceleration sEXPECTED_DT); ISetpointIterator dudeSetpointIterator; // TODO create dynamic iterator, way to switch if (true) { PathGenerator dudePathGenerator = new PathGenerator(); List<PathSetpoint> dudeList = dudePathGenerator.generate(dudePathConfig); dudeSetpointIterator = new StaticSetpointIterator(dudeList); } return new DriveStraightPath(mSnobot.getDriveTrain(), mSnobot.getPositioner(), dudeSetpointIterator); }
private Command createTrajectoryCommand(String aFile) { String pathFile = Properties2016.sAUTON_PATH_DIRECTORY.getValue() + "/" + aFile.trim(); TextFileDeserializer deserializer = new TextFileDeserializer(); Path p = deserializer.deserializeFromFile(pathFile); Command output = null; if (p == null) { addError("Could not read path file " + pathFile); } else { output = new TrajectoryPathCommand(mSnobot.getDriveTrain(), mSnobot.getPositioner(), p); } return output; }
private Command createFudgePosition(List<String> args) { double newX; double newY; if (args.get(1).equals("Same")) { newX = mSnobot.getPositioner().getXPosition(); } else { newX = Double.parseDouble(args.get(1)); } if (args.get(2).equals("Same")) { newY = mSnobot.getPositioner().getYPosition(); } else { newY = Double.parseDouble(args.get(2)); } return new FudgeThePosition(mSnobot.getPositioner(), newX, newY); }
/** * This autonomous (along with the chooser code above) shows how to select between different autonomous modes * using the dashboard. The sendable chooser code works with the Java SmartDashboard. If you prefer the LabVIEW * Dashboard, remove all of the chooser code and uncomment the getString code to get the auto name from the text box * below the Gyro * * You can add additional auto modes by adding additional commands to the chooser code above (like the commented example) * or additional comparisons to the switch structure below with additional strings & commands. */ public void autonomousInit() { autonomousCommand = (Command) chooser.getSelected(); /* String autoSelected = SmartDashboard.getString("Auto Selector", "Default"); switch(autoSelected) { case "My Auto": autonomousCommand = new MyAutoCommand(); break; case "Default Auto": default: autonomousCommand = new ExampleCommand(); break; } */ // schedule the autonomous command (example) if (autonomousCommand != null) autonomousCommand.start(); belowLowBar.start(); }
/** * This autonomous (along with the chooser code above) shows how to select between different autonomous modes * using the dashboard. The sendable chooser code works with the Java SmartDashboard. If you prefer the LabVIEW * Dashboard, remove all of the chooser code and uncomment the getString code to get the auto name from the text box * below the Gyro * * You can add additional auto modes by adding additional commands to the chooser code above (like the commented example) * or additional comparisons to the switch structure below with additional strings & commands. */ public void autonomousInit() { autonomousCommand = (Command) chooser.getSelected(); /* String autoSelected = SmartDashboard.getString("Auto Selector", "Default"); switch(autoSelected) { case "My Auto": autonomousCommand = new MyAutoCommand(); break; case "Default Auto": default: autonomousCommand = new ExampleCommand(); break; } */ // schedule the autonomous command (example) if (autonomousCommand != null) autonomousCommand.start(); }
public AimCleatShot(Direction direction) { Command turntableCommand = null; switch (direction) { case LEFT: turntableCommand = new MoveTurnTable(270); break; case RIGHT: turntableCommand = new MoveTurnTable(90); break; case CENTER: turntableCommand = new MoveTurnTable(180); break; default: // Oh no! break; } addSequential(turntableCommand); }
public AutonomousCommand(Command defense_command) { requires(Robot.chassis); addSequential(defense_command); addSequential(new AimAndShootCommand()); // Add Commands here: // e.g. addSequential(new Command1()); // addSequential(new Command2()); // these will run in order. // To run multiple commands at the same time, // use addParallel() // e.g. addParallel(new Command1()); // addSequential(new Command2()); // Command1 and Command2 will run in parallel. // A command group will require all of the subsystems that each member // would require. // e.g. if Command1 requires chassis, and Command2 requires arm, // a CommandGroup containing them would require both the chassis and the // arm. }
public void autonomousInit() { // Use the selected autonomous command autonomousCommand = (Command) oi.autonomousProgramChooser.getSelected(); //double desiredDistrance = preferences.getDouble("DesiredDistance", 9.0); //autonomousCommand = new AutonomousCommandToteStrategy(); //autonomousCommand = new StrafeCommand(3, 0.7); //double desiredDistance = preferences.getDouble("DesiredDistance", 9.0); //autonomousCommand = new AutonomousCommandToteStrategy(); // Sets the setPoint to where-ever it is to prevent the elevator // wanting to go to a random position (default zero) elevator.setHieghtToCurrentPosition(); // Tells the elevator to approximate the other maximum when it hits a limit switch Elevator.SAFETY = true; Elevator.needToApproximate = true; Elevator.didSaveTopValue = false; Elevator.didSaveBottomValue = false; driveTrain.fieldMode = false; autonomousCommand.start(); }
public void autonomousInit() { toteCollectTime = prefs.getDouble("toteTimeout", 1.0); driveToAutoTime = prefs.getDouble("timeToAutozone", 4.0); driveToAutoSpeed = prefs.getFloat("driveSpeedToScore", -0.8f); driveToBinTime = prefs.getDouble("timeToBin", 1.0); driveToBinSpeed = prefs.getFloat("driveToBinSpeed", -0.5f); elevateToteTime = prefs.getDouble("timeToElevateTote", 1.0); rollersEjectTime = prefs.getDouble("timeForRollersToEject", 1.0); timeToGroundLevel = prefs.getDouble("timeToGroundLevel", 1.0); turnToAutoTime = prefs.getDouble("timeToTurnToAutoZone", 1.0); turnToAutoSpeed = prefs.getFloat("speedToTurnToAutoZone", 0.5f); binLiftTime = prefs.getDouble("timeToLiftBin", 1.0); clawOpenOnElevMove = prefs.getBoolean("clawOpenALot", true); clawCloseOnElevMove = prefs.getBoolean("clawCloseALot", true); prefs.save(); // schedule the autonomous command (example) autonomousCommand = (Command) chooser.getSelected(); if (autonomousCommand != null) autonomousCommand.start(); }
public void autonomousInit() { // schedule the autonomous command //RobotMap.forkliftMotor.enableBrakeMode(true); //TODO: verify that this is how you do it /* * RobotMap.driveBaseLeftFrontMotor.enableBrakeMode(true); * RobotMap.driveBaseRightFrontMotor.enableBrakeMode(true); RobotMap.driveBaseLeftRearMotor.enableBrakeMode(true); RobotMap.driveBaseRightRearMotor.enableBrakeMode(true); */ RobotMap.imu.zeroYaw(); RobotMap.driveBaseLeftFrontMotor.enableBrakeMode(false); RobotMap.driveBaseRightFrontMotor.enableBrakeMode(false); RobotMap.driveBaseLeftRearMotor.enableBrakeMode(false); RobotMap.driveBaseRightRearMotor.enableBrakeMode(false); Scheduler.getInstance().add((Command) oi.pattern.getSelected()); }
/** * Starts the given command whenever the trigger just becomes active. * @param command the command to start */ public void whenActive(final Command command) { new ButtonScheduler() { boolean pressedLast = grab(); public void execute() { if (grab()) { if (!pressedLast) { pressedLast = true; command.start(); } } else { pressedLast = false; } } }.start(); }
/** * Constantly starts the given command while the button is held. * * {@link Command#start()} will be called repeatedly while the trigger is active, * and will be canceled when the trigger becomes inactive. * * @param command the command to start */ public void whileActive(final Command command) { new ButtonScheduler() { boolean pressedLast = grab(); public void execute() { if (grab()) { pressedLast = true; command.start(); } else { if (pressedLast) { pressedLast = false; command.cancel(); } } } }.start(); }
/** * Starts the command when the trigger becomes inactive * @param command the command to start */ public void whenInactive(final Command command) { new ButtonScheduler() { boolean pressedLast = grab(); public void execute() { if (grab()) { pressedLast = true; } else { if (pressedLast) { pressedLast = false; command.start(); } } } }.start(); }
/** * Toggles a command when the trigger becomes active * @param command the command to toggle */ public void toggleWhenActive(final Command command) { new ButtonScheduler() { boolean pressedLast = grab(); public void execute() { if (grab()) { if (!pressedLast) { pressedLast = true; if (command.isRunning()){ command.cancel(); } else{ command.start(); } } } else { pressedLast = false; } } }.start(); }
/** * Cancels a command when the trigger becomes active * @param command the command to cancel */ public void cancelWhenActive(final Command command) { new ButtonScheduler() { boolean pressedLast = grab(); public void execute() { if (grab()) { if (!pressedLast) { pressedLast = true; command.cancel(); } } else { pressedLast = false; } } }.start(); }
public void autonomousInit() { // // Last ditch effort to bring the camera up on the DS laptop, probably // // is too late. // TargetTrackingCommunication.setCameraEnabled(true); // // Tell the DS laptop to starting detecting the hot target // TargetTrackingCommunication.setAutonomousVisionRunning(true); // Removed this and put it in the autonomous command // Robot.driveSubsystem.getRobotDrive().resetGyro(); // Pick which autonomous mode to use. Object selection = autonomousChooser.getSelected(); if (selection != null && selection instanceof Command) { autonomousCommand = (Command) selection; autonomousCommand.start(); } else { System.out.println("No autonomous mode selected."); } }
private Command _changeIntake(final int diff) { return new DoNothing() { protected void initialize() { _intake += diff; if(_intake >= 1) { Robot.intake.spinIn(); } else if(_intake <= -1) { Robot.intake.spinOut(); } else { Robot.intake.stop(); } } protected boolean isFinished() { return true; } }; }
public Conditional(final Command ifTrue,final Command ifFalse) { super("Condition?" + (ifTrue == null ? "" : ifTrue .getName()) + ":" + (ifFalse == null ? "" : ifFalse.getName())); // Wrap the Commands to expose protected methods if(ifTrue != null) { _ifTrue = new PublicCommand(ifTrue); for(Enumeration e = _ifTrue.getRequirements();e.hasMoreElements();) { requires((Subsystem) e.nextElement()); } } else { _ifTrue = null; } if(ifFalse != null) { _ifFalse = new PublicCommand(ifFalse); for(Enumeration e = _ifFalse.getRequirements();e.hasMoreElements();) { requires((Subsystem) e.nextElement()); } } else { _ifFalse = null; } }
