mirror of
https://github.com/Team4388/2026KPopRobotHunters.git
synced 2026-06-09 00:38:03 -06:00
Michael Mikovsky
210 lines
7.9 KiB
Java
210 lines
7.9 KiB
Java
package frc4388.robot.subsystems.shooter;
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import static edu.wpi.first.units.Units.Rotation;
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import static edu.wpi.first.units.Units.RotationsPerSecond;
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import org.littletonrobotics.junction.AutoLogOutput;
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import org.littletonrobotics.junction.Logger;
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import edu.wpi.first.math.geometry.Pose2d;
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import edu.wpi.first.math.kinematics.ChassisSpeeds;
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import edu.wpi.first.units.measure.AngularVelocity;
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import edu.wpi.first.wpilibj2.command.SubsystemBase;
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import frc4388.robot.constants.Constants;
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import frc4388.robot.subsystems.LED;
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import frc4388.robot.subsystems.intake.Intake;
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import frc4388.robot.subsystems.swerve.SwerveDrive;
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import frc4388.utility.compute.FieldPositions;
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public class Shooter extends SubsystemBase {
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public ShooterIO io;
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ShooterStateAutoLogged state = new ShooterStateAutoLogged();
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SwerveDrive m_SwerveDrive;
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Intake m_Intake;
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LED m_robotLED;
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// Supplier<Pose2d> m_swervePoseSupplier;
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public Shooter(
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ShooterIO io,
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SwerveDrive swerveDrive,
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Intake intake,
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LED robotLED
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) {
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this.io = io;
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this.m_SwerveDrive = swerveDrive;
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this.m_Intake = intake;
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this.m_robotLED = robotLED;
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// this.m_swervePoseSupplier = swervePoseSupplier;
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}
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public enum FieldZone {
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// The robot should aim at the hub
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InShootZone,
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// The robot should aim towards the wall
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AimAtWall,
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}
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public enum ShooterMode {
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Shooting,
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Feeding,
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Idle
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}
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private ShooterMode mode = ShooterMode.Idle;
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private boolean shooterButtonReady = false;
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public void setShooterShooting() {
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this.mode = ShooterMode.Shooting;
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}
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public void setShooterFeeding() {
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this.mode = ShooterMode.Feeding;
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}
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public void setShooterIdle() {
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this.mode = ShooterMode.Idle;
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}
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public void setShooterShoot() {
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shooterButtonReady = true;
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}
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public void setShooterNOTShoot() {
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shooterButtonReady = false;
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}
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@AutoLogOutput
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public ShooterMode getMode() {
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return mode;
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}
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@Override
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public void periodic() {
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// FaultReporter.register(this); // TODO Implement fault reporter
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Logger.processInputs("Shooter", state);
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io.updateInputs(state);
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ChassisSpeeds speed = m_SwerveDrive.chassisSpeeds;
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double XYSpeed = Math.sqrt(Math.pow(speed.vxMetersPerSecond,2) + Math.pow(speed.vyMetersPerSecond,2));
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double AngSpeed = Math.abs(speed.omegaRadiansPerSecond * (180/Math.PI));
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Pose2d robotPose2d = m_SwerveDrive.getPose2d();
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//
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double distanceToHub = (robotPose2d.getTranslation().minus(FieldPositions.HUB_POSITION).getNorm());
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//Center of hub to cameras in inches
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Logger.recordOutput("Hub Dist", distanceToHub);
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boolean driverError =
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// XYSpeed <= ShooterConstants.ROBOT_SPEED_TOLERANCE.get() |
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// AngSpeed <= ShooterConstants.ROBOT_ANG_SPEED_TOLERANCE.get() |
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distanceToHub <= ShooterConstants.ROBOT_MIN_HUB.get() |
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distanceToHub >= ShooterConstants.ROBOT_MAX_HUB.get();
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double shooterSpeed = Math.abs(state.motor1Velocity.in(RotationsPerSecond) + state.motor2Velocity.in(RotationsPerSecond)) / 2;
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double shooterSpeedTarget = Math.abs(state.motor1TargetVelocity.in(RotationsPerSecond) + state.motor2TargetVelocity.in(RotationsPerSecond)) / 2;
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boolean badShooterVelocity = Math.abs(shooterSpeed - shooterSpeedTarget) > ShooterConstants.SHOOTER_SPEED_TOLERANCE.get();
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switch (mode) {
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case Shooting:
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io.setShooterVelocity(state, ShooterConstants.getTargetShooterSpeed(distanceToHub));
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int bitmask = (
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(shooterButtonReady ? 1 : 0) +
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(badShooterVelocity ? 2 : 0) +
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(driverError ? 4 : 0)
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);
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switch (bitmask) {
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case 0b000: // No errors but button is not pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.OPREADY);
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break;
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case 0b001: // No errors and shoot button is pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_FORWARD_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.OPREADY);
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break;
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case 0b010: // Bad shooter velocity, button is not pressed
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case 0b011: // Bad shooter velocty, button is pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.BAD_FLYWEEL);
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break;
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case 0b100: // Driver error, button is not pressed
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case 0b101: // Driver error, button is pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.OPREADY_BADPHYS);
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break;
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case 0b110: // Driver error, bad shooter vel, button is not pressed
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case 0b111: // Driver error, bad shooter vel, button is pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.BAD_FLYWEEL_BADPHYS);
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break;
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}
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break;
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case Feeding:
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io.setShooterVelocity(state, RotationsPerSecond.of(ShooterConstants.SHOOTER_FEED_VELOCITY.get()));
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int bitmask2 = (
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(shooterButtonReady ? 1 : 0) +
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(badShooterVelocity ? 2 : 0)
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);
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switch (bitmask2) {
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case 0b000: // No errors but button is not pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.OPREADY_FEED);
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break;
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case 0b001: // No errors and shoot button is pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_FORWARD_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.OPREADY_FEED);
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break;
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case 0b010: // Bad shooter velocity, button is not pressed
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case 0b011: // Bad shooter velocty, button is pressed
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io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.BAD_FLYWEEL);
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break;
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// case 0b100: // Driver error, button is not pressed
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// case 0b101: // Driver error, button is pressed
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// m_robotLED.setMode(Constants.LEDConstants.BAD_FLYWEEL);
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// io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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// break;
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// case 0b110: // Driver error, bad shooter vel, button is not pressed
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// case 0b111: // Driver error, bad shooter vel, button is pressed
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// m_robotLED.setMode(Constants.LEDConstants.BAD_FLYWEEL_BADPHYS);
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// io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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// break;
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}
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break;
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case Idle:
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io.setShooterVelocity(state, RotationsPerSecond.of(ShooterConstants.SHOOTER_RESTING_VELOCITY.get()));
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io.setIndexerOutput(state, ShooterConstants.INDEXER_REVERSE_OUTPUT.get());
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m_robotLED.setMode(Constants.LEDConstants.DEFAULT_PATTERN);
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break;
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}
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}
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}
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