/*----------------------------------------------------------------------------*/ /* Copyright (c) 2017-2019 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; import com.ctre.phoenix.motorcontrol.NeutralMode; import edu.wpi.first.wpilibj.TimedRobot; import edu.wpi.first.wpilibj2.command.Command; import edu.wpi.first.wpilibj2.command.CommandScheduler; /** * The VM is configured to automatically run this class, and to call the * functions corresponding to each mode, as described in the TimedRobot * documentation. If you change the name of this class or the package after * creating this project, you must also update the build.gradle file in the * project. */ public class Robot extends TimedRobot { Command m_autonomousCommand; private RobotContainer m_robotContainer; /** * This function is run when the robot is first started up and should be * used for any initialization code. */ @Override public void robotInit() { // Instantiate our RobotContainer. This will perform all our button bindings, and put our // autonomous chooser on the dashboard. m_robotContainer = new RobotContainer(); } /** * This function is called every robot packet, no matter the mode. Use * this for items like diagnostics that you want ran during disabled, * autonomous, teleoperated and test. * *

This runs after the mode specific periodic functions, but before * LiveWindow and SmartDashboard integrated updating. */ @Override public void robotPeriodic() { // Runs the Scheduler. This is responsible for polling buttons, adding newly-scheduled // commands, running already-scheduled commands, removing finished or interrupted commands, // and running subsystem periodic() methods. This must be called from the robot's periodic // block in order for anything in the Command-based framework to work. CommandScheduler.getInstance().run(); } /** * This function is called once each time the robot enters Disabled mode. * You can use it to reset any subsystem information you want to clear when * the robot is disabled. */ @Override public void disabledInit() { m_robotContainer.setDriveNeutralMode(NeutralMode.Coast); } @Override public void disabledPeriodic() { } /** * This autonomous runs the autonomous command selected by your {@link RobotContainer} class. */ @Override public void autonomousInit() { m_autonomousCommand = m_robotContainer.getAutonomousCommand(); m_robotContainer.setDriveNeutralMode(NeutralMode.Brake); /* * 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 (m_autonomousCommand != null) { m_autonomousCommand.schedule(); } } /** * This function is called periodically during autonomous. */ @Override public void autonomousPeriodic() { } @Override public void teleopInit() { m_robotContainer.setDriveNeutralMode(NeutralMode.Coast); // 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 (m_autonomousCommand != null) { m_autonomousCommand.cancel(); } } /** * This function is called periodically during operator control. */ @Override public void teleopPeriodic() { } /** * This function is called periodically during test mode. */ @Override public void testPeriodic() { } }