src/main/java/frc4388/robot/subsystems/Shooter.java

/*----------------------------------------------------------------------------*/
/* Copyright (c) 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.subsystems;

import com.ctre.phoenix.motorcontrol.NeutralMode;
import com.ctre.phoenix.motorcontrol.TalonFXControlMode;
import com.ctre.phoenix.motorcontrol.can.WPI_TalonFX;
import com.revrobotics.CANEncoder;
import com.revrobotics.CANPIDController;
import com.revrobotics.CANSparkMax;
import com.revrobotics.ControlType;
import com.revrobotics.CANSparkMaxLowLevel.MotorType;

import edu.wpi.first.wpilibj.smartdashboard.SmartDashboard;
import edu.wpi.first.wpilibj2.command.SubsystemBase;
import frc4388.robot.Gains;
import frc4388.robot.Constants.ShooterConstants;

public class Shooter extends SubsystemBase {

  public WPI_TalonFX m_shooterFalcon = new WPI_TalonFX(ShooterConstants.SHOOTER_FALCON_ID);
  public CANSparkMax m_angleAdjustMotor = new CANSparkMax(ShooterConstants.SHOOTER_ANGLE_ADJUST_ID, MotorType.kBrushless);
  public CANSparkMax m_shooterRotateMotor = new CANSparkMax(ShooterConstants.SHOOTER_ROTATE_ID, MotorType.kBrushless);

  public static Gains m_shooterGains = ShooterConstants.SHOOTER_GAINS;

  // Configure PID Controllers
  CANPIDController m_angleAdjustPIDController = m_angleAdjustMotor.getPIDController();
  CANPIDController m_shooterRotatePIDController = m_shooterRotateMotor.getPIDController();

  CANEncoder m_angleEncoder = m_angleAdjustMotor.getEncoder();
  CANEncoder m_shooterRotateEncoder = m_shooterRotateMotor.getEncoder();

  double velP;
  /**
   * Creates a new Shooter subsystem.
   */
  public Shooter() {
    //Testing purposes reseting gyros
    resetGyroAngleAdj();
    resetGyroShooterRotate();

    m_shooterFalcon.configFactoryDefault();

    m_shooterFalcon.setNeutralMode(NeutralMode.Coast);

    m_shooterFalcon.setInverted(true);
    
    setShooterGains();

    m_shooterFalcon.configPeakOutputReverse(0, ShooterConstants.SHOOTER_TIMEOUT_MS);
    
    m_shooterFalcon.setSelectedSensorPosition(0, ShooterConstants.SHOOTER_PID_LOOP_IDX, ShooterConstants.SHOOTER_TIMEOUT_MS);
    
    int closedLoopTimeMs = 1;
    m_shooterFalcon.configClosedLoopPeriod(0, closedLoopTimeMs, ShooterConstants.SHOOTER_TIMEOUT_MS);
    m_shooterFalcon.configClosedLoopPeriod(1, closedLoopTimeMs, ShooterConstants.SHOOTER_TIMEOUT_MS);
  }

  @Override
  public void periodic() {
    // This method will be called once per scheduler run
    SmartDashboard.putNumber("Shooter Velocity", m_shooterFalcon.getSelectedSensorVelocity()*600/ShooterConstants.ENCODER_TICKS_PER_REV);
  }

  /**
   * Runs drum shooter motor.
   * @param speed Speed to set the motor at
   */
  public void runDrumShooter(double speed) {
    m_shooterFalcon.set(speed);
  }

  /**
   * Configures gains for shooter PID.
   */
  public void setShooterGains() {
    m_shooterFalcon.selectProfileSlot(ShooterConstants.SHOOTER_SLOT_IDX, ShooterConstants.SHOOTER_PID_LOOP_IDX);
    m_shooterFalcon.config_kF(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kF, ShooterConstants.SHOOTER_TIMEOUT_MS);
    m_shooterFalcon.config_kP(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kP, ShooterConstants.SHOOTER_TIMEOUT_MS);
    m_shooterFalcon.config_kI(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kI, ShooterConstants.SHOOTER_TIMEOUT_MS);
    m_shooterFalcon.config_kD(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kD, ShooterConstants.SHOOTER_TIMEOUT_MS);
  }
  /**
   * Runs drum shooter velocity PID.
   * @param falcon Motor to use
   * @param targetVel Target velocity to run motor at
   */
  public void runDrumShooterVelocityPID(double targetVel, double actualVel) {
    velP = actualVel/targetVel; //Percent of target
    double runSpeed = actualVel + (12000*velP); //Ramp up equation
    //if (runSpeed > targetVel) {runSpeed = targetVel;}
    SmartDashboard.putNumber("shoot", actualVel);
    runSpeed = runSpeed/targetVel; //Convert to percent
    if (actualVel < targetVel - 1000){ //PID Based on ramp up amount
      m_shooterFalcon.set(TalonFXControlMode.PercentOutput, runSpeed);
    }
    else{ //PID Based on targetVel
      m_shooterFalcon.set(TalonFXControlMode.Velocity, targetVel); //Init PID
    }
  }

  /* Angle Adjustment PID Control */
  public void runAngleAdjustPID(double targetAngle, double kP, double kI, double kD, double kIz, double kF, double kmaxOutput, double kminOutput)
  {
    // Set PID Coefficients
    m_angleAdjustPIDController.setP(kP);
    m_angleAdjustPIDController.setI(kI);
    m_angleAdjustPIDController.setD(kD);
    m_angleAdjustPIDController.setIZone(kIz);
    m_angleAdjustPIDController.setFF(kF);
    m_angleAdjustPIDController.setOutputRange(kminOutput, kmaxOutput); 

    // Convert input angle in degrees to rotations of the motor
    targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;

    m_angleAdjustPIDController.setReference(targetAngle, ControlType.kPosition);
  }

  /* Rotate Shooter PID Control */
  public void runshooterRotatePID(double targetAngle, double kP, double kI, double kD, double kIz, double kF, double kmaxOutput, double kminOutput)
  {
    // Set PID Coefficients
    m_shooterRotatePIDController.setP(kP);
    m_shooterRotatePIDController.setI(kI);
    m_shooterRotatePIDController.setD(kD);
    m_shooterRotatePIDController.setIZone(kIz);
    m_shooterRotatePIDController.setFF(kF);
    m_shooterRotatePIDController.setOutputRange(kminOutput, kmaxOutput); 

    // Convert input angle in degrees to rotations of the motor
    targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;

    m_shooterRotatePIDController.setReference(targetAngle, ControlType.kPosition);
  }

  /* For Testing Purposes, reseting gyro for angle adjuster */
  public void resetGyroAngleAdj()
  {
    m_angleEncoder.setPosition(0);
  }

  /* For Testing Purposes, reseting gyro for shooter rotation */
  public void resetGyroShooterRotate()
  {
    m_shooterRotateEncoder.setPosition(0);
  }
}
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`/----------------------------------------------------------------------------/`
			`/* Copyright (c) 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.subsystems;`

			`import com.ctre.phoenix.motorcontrol.NeutralMode;`
Finished up Velocity Control PID 2020-01-20 08:59:20 -08:00			`import com.ctre.phoenix.motorcontrol.TalonFXControlMode;`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`import com.ctre.phoenix.motorcontrol.can.WPI_TalonFX;`
Added Neo PID loops to Shooter Subsystem for angle adjustment and rotating the shooter 2020-02-11 16:09:31 -08:00			`import com.revrobotics.CANEncoder;`
			`import com.revrobotics.CANPIDController;`
			`import com.revrobotics.CANSparkMax;`
			`import com.revrobotics.ControlType;`
			`import com.revrobotics.CANSparkMaxLowLevel.MotorType;`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00
Tested Shooter, Fine tuned it 2020-01-20 15:22:44 -07:00			`import edu.wpi.first.wpilibj.smartdashboard.SmartDashboard;`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`import edu.wpi.first.wpilibj2.command.SubsystemBase;`
			`import frc4388.robot.Gains;`
			`import frc4388.robot.Constants.ShooterConstants;`

			`public class Shooter extends SubsystemBase {`

Finished up Velocity Control PID 2020-01-20 08:59:20 -08:00			`public WPI_TalonFX m_shooterFalcon = new WPI_TalonFX(ShooterConstants.SHOOTER_FALCON_ID);`
Added Neo PID loops to Shooter Subsystem for angle adjustment and rotating the shooter 2020-02-11 16:09:31 -08:00			`public CANSparkMax m_angleAdjustMotor = new CANSparkMax(ShooterConstants.SHOOTER_ANGLE_ADJUST_ID, MotorType.kBrushless);`
			`public CANSparkMax m_shooterRotateMotor = new CANSparkMax(ShooterConstants.SHOOTER_ROTATE_ID, MotorType.kBrushless);`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00
			`public static Gains m_shooterGains = ShooterConstants.SHOOTER_GAINS;`

Added Neo PID loops to Shooter Subsystem for angle adjustment and rotating the shooter 2020-02-11 16:09:31 -08:00			`// Configure PID Controllers`
			`CANPIDController m_angleAdjustPIDController = m_angleAdjustMotor.getPIDController();`
			`CANPIDController m_shooterRotatePIDController = m_shooterRotateMotor.getPIDController();`

			`CANEncoder m_angleEncoder = m_angleAdjustMotor.getEncoder();`
			`CANEncoder m_shooterRotateEncoder = m_shooterRotateMotor.getEncoder();`

Fix Shooter PID 2020-01-31 21:39:51 -07:00			`double velP;`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`/**`
Tuning and Comments 2020-02-10 19:21:10 -07:00			`* Creates a new Shooter subsystem.`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`*/`
			`public Shooter() {`
PIDs fully added and tested for Neos 2020-02-13 18:57:11 -08:00			`//Testing purposes reseting gyros`
			`resetGyroAngleAdj();`
			`resetGyroShooterRotate();`

Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`m_shooterFalcon.configFactoryDefault();`

			`m_shooterFalcon.setNeutralMode(NeutralMode.Coast);`

Tested Shooter, Fine tuned it 2020-01-20 15:22:44 -07:00			`m_shooterFalcon.setInverted(true);`
Added Shooter Subsystem PID Stuff 2020-01-19 00:28:21 -07:00
			`setShooterGains();`
Fix Shooter 2020-02-04 18:09:40 -07:00
			`m_shooterFalcon.configPeakOutputReverse(0, ShooterConstants.SHOOTER_TIMEOUT_MS);`
Added Shooter Subsystem PID Stuff 2020-01-19 00:28:21 -07:00
			`m_shooterFalcon.setSelectedSensorPosition(0, ShooterConstants.SHOOTER_PID_LOOP_IDX, ShooterConstants.SHOOTER_TIMEOUT_MS);`

			`int closedLoopTimeMs = 1;`
			`m_shooterFalcon.configClosedLoopPeriod(0, closedLoopTimeMs, ShooterConstants.SHOOTER_TIMEOUT_MS);`
			`m_shooterFalcon.configClosedLoopPeriod(1, closedLoopTimeMs, ShooterConstants.SHOOTER_TIMEOUT_MS);`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`}`

			`@Override`
			`public void periodic() {`
			`// This method will be called once per scheduler run`
Spin up before engaging shooter pid 2020-01-21 16:45:29 -07:00			`SmartDashboard.putNumber("Shooter Velocity", m_shooterFalcon.getSelectedSensorVelocity()*600/ShooterConstants.ENCODER_TICKS_PER_REV);`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`}`

			`/**`
			`* Runs drum shooter motor.`
Added Shooter Subsystem PID Stuff 2020-01-19 00:28:21 -07:00			`* @param speed Speed to set the motor at`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`*/`
			`public void runDrumShooter(double speed) {`
			`m_shooterFalcon.set(speed);`
			`}`

			`/**`
			`* Configures gains for shooter PID.`
			`*/`
			`public void setShooterGains() {`
			`m_shooterFalcon.selectProfileSlot(ShooterConstants.SHOOTER_SLOT_IDX, ShooterConstants.SHOOTER_PID_LOOP_IDX);`
fix keenans dumb merge 2020-02-10 18:02:37 -07:00			`m_shooterFalcon.config_kF(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kF, ShooterConstants.SHOOTER_TIMEOUT_MS);`
			`m_shooterFalcon.config_kP(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kP, ShooterConstants.SHOOTER_TIMEOUT_MS);`
			`m_shooterFalcon.config_kI(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kI, ShooterConstants.SHOOTER_TIMEOUT_MS);`
			`m_shooterFalcon.config_kD(ShooterConstants.SHOOTER_SLOT_IDX, m_shooterGains.m_kD, ShooterConstants.SHOOTER_TIMEOUT_MS);`
Create Shooter Subsystem and PID stuff 2020-01-18 15:28:48 -08:00			`}`
Added Shooter Subsystem PID Stuff 2020-01-19 00:28:21 -07:00			`/**`
			`* Runs drum shooter velocity PID.`
			`* @param falcon Motor to use`
			`* @param targetVel Target velocity to run motor at`
			`*/`
Fix Shooter PID 2020-01-31 21:39:51 -07:00			`public void runDrumShooterVelocityPID(double targetVel, double actualVel) {`
Fix Shooter 2020-02-04 18:09:40 -07:00			`velP = actualVel/targetVel; //Percent of target`
			`double runSpeed = actualVel + (12000*velP); //Ramp up equation`
			`//if (runSpeed > targetVel) {runSpeed = targetVel;}`
Runup 2020-02-01 12:40:39 -07:00			`SmartDashboard.putNumber("shoot", actualVel);`
Fix Shooter 2020-02-04 18:09:40 -07:00			`runSpeed = runSpeed/targetVel; //Convert to percent`
Tuning and Comments 2020-02-10 19:21:10 -07:00			`if (actualVel < targetVel - 1000){ //PID Based on ramp up amount`
Fix Shooter 2020-02-04 18:09:40 -07:00			`m_shooterFalcon.set(TalonFXControlMode.PercentOutput, runSpeed);`
PID tuning 2020-02-01 16:07:59 -07:00			`}`
Tuning and Comments 2020-02-10 19:21:10 -07:00			`else{ //PID Based on targetVel`
Fix Shooter 2020-02-04 18:09:40 -07:00			`m_shooterFalcon.set(TalonFXControlMode.Velocity, targetVel); //Init PID`
PID tuning 2020-02-01 16:07:59 -07:00			`}`
Added Shooter Subsystem PID Stuff 2020-01-19 00:28:21 -07:00			`}`
Added Neo PID loops to Shooter Subsystem for angle adjustment and rotating the shooter 2020-02-11 16:09:31 -08:00
			`/* Angle Adjustment PID Control */`
			`public void runAngleAdjustPID(double targetAngle, double kP, double kI, double kD, double kIz, double kF, double kmaxOutput, double kminOutput)`
			`{`
			`// Set PID Coefficients`
			`m_angleAdjustPIDController.setP(kP);`
			`m_angleAdjustPIDController.setI(kI);`
			`m_angleAdjustPIDController.setD(kD);`
			`m_angleAdjustPIDController.setIZone(kIz);`
			`m_angleAdjustPIDController.setFF(kF);`
			`m_angleAdjustPIDController.setOutputRange(kminOutput, kmaxOutput);`

			`// Convert input angle in degrees to rotations of the motor`
			`targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;`

			`m_angleAdjustPIDController.setReference(targetAngle, ControlType.kPosition);`
			`}`

			`/* Rotate Shooter PID Control */`
			`public void runshooterRotatePID(double targetAngle, double kP, double kI, double kD, double kIz, double kF, double kmaxOutput, double kminOutput)`
			`{`
			`// Set PID Coefficients`
			`m_shooterRotatePIDController.setP(kP);`
			`m_shooterRotatePIDController.setI(kI);`
			`m_shooterRotatePIDController.setD(kD);`
			`m_shooterRotatePIDController.setIZone(kIz);`
			`m_shooterRotatePIDController.setFF(kF);`
			`m_shooterRotatePIDController.setOutputRange(kminOutput, kmaxOutput);`

			`// Convert input angle in degrees to rotations of the motor`
			`targetAngle = targetAngle/ShooterConstants.DEGREES_PER_ROT;`

			`m_shooterRotatePIDController.setReference(targetAngle, ControlType.kPosition);`
			`}`
PIDs fully added and tested for Neos 2020-02-13 18:57:11 -08:00
			`/* For Testing Purposes, reseting gyro for angle adjuster */`
			`public void resetGyroAngleAdj()`
			`{`
			`m_angleEncoder.setPosition(0);`
			`}`

			`/* For Testing Purposes, reseting gyro for shooter rotation */`
			`public void resetGyroShooterRotate()`
			`{`
			`m_shooterRotateEncoder.setPosition(0);`
			`}`
Fix Shooter PID 2020-01-31 21:39:51 -07:00			`}`