package swervelib.imu; import com.ctre.phoenix6.StatusSignal; import com.ctre.phoenix6.configs.Pigeon2Configuration; import com.ctre.phoenix6.configs.Pigeon2Configurator; import com.ctre.phoenix6.hardware.Pigeon2; import edu.wpi.first.math.geometry.Rotation3d; import edu.wpi.first.math.geometry.Translation3d; import edu.wpi.first.wpilibj.smartdashboard.SmartDashboard; import java.util.Optional; /** * SwerveIMU interface for the Pigeon2 */ public class Pigeon2Swerve extends SwerveIMU { /** * Wait time for status frames to show up. */ public static double STATUS_TIMEOUT_SECONDS = 0.04; /** * Pigeon2 IMU device. */ Pigeon2 imu; /** * Offset for the Pigeon 2. */ private Rotation3d offset = new Rotation3d(); /** * Inversion for the gyro */ private boolean invertedIMU = false; /** * Generate the SwerveIMU for pigeon. * * @param canid CAN ID for the pigeon * @param canbus CAN Bus name the pigeon resides on. */ public Pigeon2Swerve(int canid, String canbus) { imu = new Pigeon2(canid, canbus); SmartDashboard.putData(imu); } /** * Generate the SwerveIMU for pigeon. * * @param canid CAN ID for the pigeon */ public Pigeon2Swerve(int canid) { this(canid, ""); } /** * Reset IMU to factory default. */ @Override public void factoryDefault() { Pigeon2Configurator cfg = imu.getConfigurator(); Pigeon2Configuration config = new Pigeon2Configuration(); // Compass utilization causes readings to jump dramatically in some cases. cfg.apply(config.Pigeon2Features.withEnableCompass(false)); } /** * Clear sticky faults on IMU. */ @Override public void clearStickyFaults() { imu.clearStickyFaults(); } /** * Set the gyro offset. * * @param offset gyro offset as a {@link Rotation3d}. */ public void setOffset(Rotation3d offset) { this.offset = offset; } /** * Set the gyro to invert its default direction * * @param invertIMU invert gyro direction */ public void setInverted(boolean invertIMU) { invertedIMU = invertIMU; } /** * Fetch the {@link Rotation3d} from the IMU without any zeroing. Robot relative. * * @return {@link Rotation3d} from the IMU. */ @Override public Rotation3d getRawRotation3d() { Rotation3d reading = imu.getRotation3d(); return invertedIMU ? reading.unaryMinus() : reading; } /** * Fetch the {@link Rotation3d} from the IMU. Robot relative. * * @return {@link Rotation3d} from the IMU. */ @Override public Rotation3d getRotation3d() { return getRawRotation3d().minus(offset); } /** * Fetch the acceleration [x, y, z] from the IMU in meters per second squared. If acceleration isn't supported returns * empty. * * @return {@link Translation3d} of the acceleration as an {@link Optional}. */ @Override public Optional getAccel() { // TODO: Switch to suppliers. StatusSignal xAcc = imu.getAccelerationX(); StatusSignal yAcc = imu.getAccelerationY(); StatusSignal zAcc = imu.getAccelerationZ(); return Optional.of(new Translation3d(xAcc.waitForUpdate(STATUS_TIMEOUT_SECONDS).getValue(), yAcc.waitForUpdate(STATUS_TIMEOUT_SECONDS).getValue(), zAcc.waitForUpdate(STATUS_TIMEOUT_SECONDS).getValue()).times(9.81 / 16384.0)); } /** * Get the instantiated IMU object. * * @return IMU object. */ @Override public Object getIMU() { return imu; } }