@Override public void robotInit() { // We could set up Strongback using its configurator, but this is entirely optional since all // defaults are acceptable. // Strongback.configure().initialize(); // Set up the robot hardware ... Motor left = Motor.compose(Hardware.Motors.talon(LF_MOTOR_PORT), Hardware.Motors.talon(LR_MOTOR_PORT)); Motor right = Motor.compose(Hardware.Motors.talon(RF_MOTOR_PORT), Hardware.Motors.talon(RR_MOTOR_PORT)) .invert(); drive = new TankDrive(left, right); // Set up the human input controls for teleoperated mode. We want to use the Logitech Attack // 3D's throttle as a // "sensitivity" input to scale the drive speed and throttle, so we'll map it from it's native // [-1,1] to a simple scale // factor of [0,1] ... FlightStick joystick = Hardware.HumanInterfaceDevices.logitechAttack3D(JOYSTICK_PORT); ContinuousRange sensitivity = joystick.getThrottle().map(t -> (t + 1.0) / 2.0); driveSpeed = joystick.getPitch().scale(sensitivity::read); // scaled turnSpeed = joystick.getRoll().scale(sensitivity::read).invert(); // scaled and inverted // Set up the command we'll use during autonomous. We'd probably use a custom CommandGroup that // did something more // complicated, but for this very simple example we'll just drive forward at 50% speed for 5 // seconds, // so we can use a simple lambda ... autonomousCommand = Command.create(5.0, () -> drive.tank(0.5, 0.5)); // Set up the data recorder to capture the left & right motor speeds (since both motors on the // same side should // be at the same speed, we can just use the composed motors for each) and the sensitivity. We // have to do this // before we start Strongback... Strongback.dataRecorder() .register("Left motors", left) .register("Right motors", right) .register("Sensitivity", sensitivity.scaleAsInt(1000)); }
/** * Submit to Strongback's internal scheduler a {@link Command} that runs the supplied function one * or more times until it returns <code>false</code> or until the prescribed maximum time has * passed, and then calls the second function. * * @param first the first function to be called at least one time and that should return <code> * true</code> if it is to be called again; may not be null * @param maxDurationInSeconds the maximum amount of time that the first function should be * repeatedly called; must be positive * @param second the second function to be called after the delay; may be null if not needed */ public static void submit(BooleanSupplier first, double maxDurationInSeconds, Runnable second) { submit(Command.create(maxDurationInSeconds, first, second)); }
/** * Submit to Strongback's internal scheduler a {@link Command} that runs the supplied function one * time, waits the prescribed amount of time, and then calls the second function. * * @param first the first function to be called; may not be null * @param delayInSeconds the delay in seconds after the first function completes; must be positive * @param second the second function to be called after the delay; may be null if not needed */ public static void submit(Runnable first, double delayInSeconds, Runnable second) { submit(Command.create(delayInSeconds, first, second)); }
/** * Submit to Strongback's internal scheduler a {@link Command} that runs the supplied function one * or more times until it returns <code>false</code> or until the prescribed maximum time has * passed, whichever comes first. * * @param function the function to be called at least one time and that should return <code>true * </code> if it is to be called again; may not be null * @param maxDurationInSeconds the maximum amount of time that the first function should be * repeatedly called; must be positive */ public static void submit(BooleanSupplier function, double maxDurationInSeconds) { submit(Command.create(maxDurationInSeconds, function)); }
/** * Submit to Strongback's internal scheduler a {@link Command} that runs the supplied function one * time and completes immediately. * * @param executeFunction the function to be called during execution; may not be null */ public static void submit(Runnable executeFunction) { submit(Command.create(executeFunction)); }