// Copyright (c) FIRST and other WPILib contributors.
// Open Source Software; you can modify and/or share it under the terms of
// the WPILib BSD license file in the root directory of this project.

package frc4388.robot;

import com.ctre.phoenix.motorcontrol.can.WPI_TalonFX;
import com.ctre.phoenix.sensors.CANCoder;
import com.revrobotics.CANSparkMax;
import com.revrobotics.CANSparkMaxLowLevel.MotorType;

import edu.wpi.first.wpilibj.motorcontrol.Spark;
import frc4388.robot.Constants.LEDConstants;
import frc4388.robot.Constants.SwerveDriveConstants;

/**
 * Defines and holds all I/O objects on the Roborio. This is useful for unit
 * testing and modularization.
 */
public class RobotMap {

  public RobotMap() {
    configureLEDMotorControllers();
    configureSwerveMotorControllers();
  }

  /* LED Subsystem */
  public final Spark LEDController = new Spark(LEDConstants.LED_SPARK_ID);

  void configureLEDMotorControllers() {
    
  }
  
  /* Swerve Subsystem */
  // public final WPI_TalonFX leftFrontSteerMotor = new WPI_TalonFX(SwerveDriveConstants.LEFT_FRONT_STEER_CAN_ID);
  // public final WPI_TalonFX leftFrontWheelMotor = new WPI_TalonFX(SwerveDriveConstants.LEFT_FRONT_WHEEL_CAN_ID);
  // public final WPI_TalonFX rightFrontSteerMotor = new WPI_TalonFX(SwerveDriveConstants.RIGHT_FRONT_STEER_CAN_ID);
  // public final WPI_TalonFX rightFrontWheelMotor = new WPI_TalonFX(SwerveDriveConstants.RIGHT_FRONT_WHEEL_CAN_ID);
  // public final WPI_TalonFX leftBackSteerMotor = new WPI_TalonFX(SwerveDriveConstants.LEFT_BACK_STEER_CAN_ID);
  // public final WPI_TalonFX leftBackWheelMotor = new WPI_TalonFX(SwerveDriveConstants.LEFT_BACK_WHEEL_CAN_ID);
  // public final WPI_TalonFX rightBackSteerMotor = new WPI_TalonFX(SwerveDriveConstants.RIGHT_BACK_STEER_CAN_ID);
  // public final WPI_TalonFX rightBackWheelMotor = new WPI_TalonFX(SwerveDriveConstants.RIGHT_BACK_WHEEL_CAN_ID);
  // public final CANCoder leftFrontEncoder = new CANCoder(SwerveDriveConstants.LEFT_FRONT_STEER_CAN_ENCODER_ID);
  // public final CANCoder rightFrontEncoder = new CANCoder(SwerveDriveConstants.RIGHT_FRONT_STEER_CAN_ENCODER_ID);
  // public final CANCoder leftBackEncoder = new CANCoder(SwerveDriveConstants.LEFT_BACK_STEER_CAN_ENCODER_ID);
  // public final CANCoder rightBackEncoder = new CANCoder(SwerveDriveConstants.RIGHT_BACK_STEER_CAN_ENCODER_ID);
      
  void configureSwerveMotorControllers() {
    // leftFrontEncoder.configMagnetOffset(SwerveDriveConstants.LEFT_BACK_ENCODER_OFFSET);
    // rightFrontEncoder.configMagnetOffset(SwerveDriveConstants.RIGHT_FRONT_ENCODER_OFFSET);
    // leftBackEncoder.configMagnetOffset(SwerveDriveConstants.LEFT_BACK_ENCODER_OFFSET);
    // rightBackEncoder.configMagnetOffset(SwerveDriveConstants.RIGHT_BACK_ENCODER_OFFSET);

    // leftFrontSteerMotor.configFactoryDefault();
    // leftFrontWheelMotor.configFactoryDefault();
    // rightFrontSteerMotor.configFactoryDefault();
    // rightFrontWheelMotor.configFactoryDefault();
    // leftBackSteerMotor.configFactoryDefault();
    // leftBackWheelMotor.configFactoryDefault();
    // rightBackSteerMotor.configFactoryDefault();
    // rightBackWheelMotor.configFactoryDefault();

    // leftFrontSteerMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftFrontWheelMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightFrontSteerMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightFrontWheelMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftBackSteerMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftBackWheelMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightBackSteerMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightBackWheelMotor.configOpenloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);

    // leftFrontWheelMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftFrontSteerMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightFrontSteerMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightFrontWheelMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftBackSteerMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftBackWheelMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightBackSteerMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightBackWheelMotor.configClosedloopRamp(SwerveDriveConstants.OPEN_LOOP_RAMP_RATE, SwerveDriveConstants.SWERVE_TIMEOUT_MS);

    // leftFrontWheelMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftFrontSteerMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightFrontSteerMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightFrontWheelMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftBackSteerMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // leftBackWheelMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightBackSteerMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    // rightBackWheelMotor.configNeutralDeadband(SwerveDriveConstants.NEUTRAL_DEADBAND, SwerveDriveConstants.SWERVE_TIMEOUT_MS);

    // config cancoder as remote encoder for swerve steer motors
    //leftFrontSteerMotor.configRemoteFeedbackFilter(leftFrontEncoder.getDeviceID(), RemoteSensorSource.CANCoder, SwerveDriveConstants.REMOTE_0, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    //leftBackSteerMotor.configRemoteFeedbackFilter(leftBackEncoder.getDeviceID(), RemoteSensorSource.CANCoder, SwerveDriveConstants.REMOTE_0, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    //rightFrontSteerMotor.configRemoteFeedbackFilter(rightFrontEncoder.getDeviceID(), RemoteSensorSource.CANCoder, SwerveDriveConstants.REMOTE_0, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
    //rightBackSteerMotor.configRemoteFeedbackFilter(rightBackEncoder.getDeviceID(), RemoteSensorSource.CANCoder, SwerveDriveConstants.REMOTE_0, SwerveDriveConstants.SWERVE_TIMEOUT_MS);
  }

  public final CANSparkMax testMotor = new CANSparkMax(6, MotorType.kBrushless);

}