2026KPopRobotHunters/src/main/java/frc4388/robot/subsystems/intake/IntakeConstants.java

package frc4388.robot.subsystems.intake;

import com.revrobotics.spark.FeedbackSensor;
import com.revrobotics.spark.config.SparkMaxConfig;
import com.revrobotics.spark.config.LimitSwitchConfig.Behavior;
import com.revrobotics.spark.config.LimitSwitchConfig.Type;
import com.revrobotics.spark.config.SparkBaseConfig.IdleMode;

import frc4388.utility.configurable.ConfigurableDouble;
import frc4388.utility.status.CanDevice;

public class IntakeConstants {
    // Motor conversions

    public static final double ARM_MOTOR_GEAR_RATIO = 125;
    public static final double ROLLER_MOTOR_GEAR_RATIO = 3;
    public static final ConfigurableDouble ARM_ENCODER_OFFSET = new ConfigurableDouble("Arm Encoder Offset", 0);



    public static final ConfigurableDouble INTAKE_BOUNCE_HALF_PERIOD = new ConfigurableDouble("Bounce Half Period", 5.);
    public static final ConfigurableDouble INTAKE_BOUNCE_OUTPUT = new ConfigurableDouble("Bounce Output", 0.2);
    public static final ConfigurableDouble INTAKE_BOUNCE_MAX_OUTPUT = new ConfigurableDouble("Bounce Max Output", 0.5);
    public static final ConfigurableDouble INTAKE_BOUNCE_CURRENT_LIMIT = new ConfigurableDouble("Intake Bounce Current Limit", 20);
    public static final ConfigurableDouble INTAKE_BOUNCE_VELOCITY_LIMIT = new ConfigurableDouble("Intake Bounce Velocity Limit", 20);



    //IDs

    public static final CanDevice ARM_ID   = new CanDevice("ARM", 20);
    public static final CanDevice ROLLER_ID   = new CanDevice("INTAKE_ROLLER", 21);
    public static final int ARM_ENCODER_ID = 0;
        
    // Limits

    // 0 is the forward angle on the robot.
    // negative is left, positive is right

    //when testing the negative output of 10% made the robot put the intake up

    // public static final Angle ARM_LIMIT_LOWER = Degrees.of(90);
    // public static final Angle ARM_LIMIT_UPPER = Degrees.of(-90);

    public static final ConfigurableDouble ARM_LIMIT_RETRACTED = new ConfigurableDouble("Arm angle retracted", 0.);
    public static final ConfigurableDouble ARM_LIMIT_EXTENDED = new ConfigurableDouble("Arm angle extended", 1.5);
    public static final ConfigurableDouble ARM_EXTEND_PERCENT_OUTPUT = new ConfigurableDouble("Arm extend % output", 0.5);
    public static final ConfigurableDouble ARM_RETRACT_PERCENT_OUTPUT = new ConfigurableDouble("Arm retract % output", -0.5);

    public static final ConfigurableDouble ARM_REVERSE_ROLLER_RANGE = new ConfigurableDouble("Arm reverse roller range", 1.17);
    
    public static final ConfigurableDouble ROLLER_PERCENT_OUTPUT = new ConfigurableDouble("Roller Percent Output", .80);
    public static final ConfigurableDouble ROLLER_RETRACT_PERCENT_OUTPUT = new ConfigurableDouble("Roller Retract Output", .40);

    // public static final ConfigurableDouble ROLL = new ConfigurableDouble("Arm angle extended", 0.25);

    // public static final AngularVelocity ROLLER_MAX_VELOCITY = RotationsPerSecond.of(4.0);
    // public static final AngularVelocity ROLLER_STOP = RotationsPerSecond.of(0.0);


    // public static final Slot0Configs ARM_PID = new Slot0Configs()
    //     .withKP(0.08)
    //     .withKI(0.0)
    //     .withKD(0.05);

    

    // public static ConfigurableDouble arm_kP = new ConfigurableDouble("ARM KP", 0.08);
    // public static ConfigurableDouble arm_kI = new ConfigurableDouble("ARM KI", 0);
    // public static ConfigurableDouble arm_kD = new ConfigurableDouble("ARM KD", 0.05);
    



    // 0 is paralell to the ground, 90 is directly up
    // public static final Angle PITCH_LIMIT_UPPER = Degrees.of(90);
    // public static final Angle PITCH_LIMIT_LOWER = Degrees.of(0);
    
    // Motor configs

    public static final SparkMaxConfig ARM_MOTOR_CONFIG = new SparkMaxConfig();
    public static final SparkMaxConfig ROLELR_MOTOR_CONFIG = new SparkMaxConfig();

    static {
        ARM_MOTOR_CONFIG.limitSwitch
            .limitSwitchPositionSensor(FeedbackSensor.kPrimaryEncoder)

            .forwardLimitSwitchType(Type.kNormallyOpen)
            .forwardLimitSwitchTriggerBehavior(Behavior.kKeepMovingMotor)

            .reverseLimitSwitchType(Type.kNormallyClosed)
            .reverseLimitSwitchPosition(0)
            .reverseLimitSwitchTriggerBehavior(Behavior.kStopMovingMotorAndSetPosition);

        ARM_MOTOR_CONFIG.idleMode(IdleMode.kBrake);

        
        ROLELR_MOTOR_CONFIG.idleMode(IdleMode.kCoast);
    }

    // public static final TalonFXConfiguration ARM_MOTOR_CONFIG = new TalonFXConfiguration()
    //     .withCurrentLimits(
    //         new CurrentLimitsConfigs()
    //             .withStatorCurrentLimit(15) // TODO: tune???
    //             .withStatorCurrentLimitEnable(true)
    //         ).withMotorOutput(
    //             new MotorOutputConfigs()
    //                 .withNeutralMode(NeutralModeValue.Brake) // Must be break because this has to be accurate
    //                 .withDutyCycleNeutralDeadband(0.04) // TODO: Figure out what this means
    // );

    // public static final TalonFXConfiguration ROLLER_MOTOR_CONFIG = new TalonFXConfiguration()
    //     .withCurrentLimits(
    //         new CurrentLimitsConfigs()
    //             .withStatorCurrentLimit(40) // TODO: tune???
    //             .withStatorCurrentLimitEnable(true)
    //         ).withMotorOutput(
    //             new MotorOutputConfigs()
    //                 .withNeutralMode(NeutralModeValue.Coast) // Must be coast because this is spinny spinny
    //                 .withDutyCycleNeutralDeadband(0.04) // TODO: Figure out what this means
    // );
}