Merge branch 'master' into Storage-Neo-PID-Integration

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

@@ -7,6 +7,7 @@
 
 package frc4388.robot.subsystems;
 
+import com.ctre.phoenix.motorcontrol.ControlMode;
 import com.ctre.phoenix.motorcontrol.DemandType;
 import com.ctre.phoenix.motorcontrol.FeedbackDevice;
 import com.ctre.phoenix.motorcontrol.FollowerType;
@@ -20,6 +21,7 @@ import com.ctre.phoenix.motorcontrol.can.WPI_TalonFX;
 import com.ctre.phoenix.sensors.PigeonIMU;
 import com.ctre.phoenix.sensors.PigeonIMU_StatusFrame;
 
+import edu.wpi.first.wpilibj.DoubleSolenoid;
 import edu.wpi.first.wpilibj.drive.DifferentialDrive;
 import edu.wpi.first.wpilibj.shuffleboard.Shuffleboard;
 import edu.wpi.first.wpilibj.smartdashboard.SendableChooser;
@@ -49,6 +51,8 @@ public class Drive extends SubsystemBase {
   public static Gains m_gainsTurning = DriveConstants.DRIVE_TURNING_GAINS;
   public static Gains m_gainsMotionMagic = DriveConstants.DRIVE_MOTION_MAGIC_GAINS;
 
+  public DoubleSolenoid speedShift;
+
   /**
    * Add your docs here.
    */
@@ -61,6 +65,8 @@ public class Drive extends SubsystemBase {
     m_pigeon.configFactoryDefault();
     resetGyroYaw();
 
+    speedShift = new DoubleSolenoid(7,0,1);
+
     /* set back motors as followers */
     m_leftBackMotor.follow(m_leftFrontMotor);
     m_rightBackMotor.follow(m_rightFrontMotor);
@@ -78,7 +84,6 @@ public class Drive extends SubsystemBase {
     m_leftBackMotor.setInverted(InvertType.FollowMaster);
     m_rightBackMotor.setInverted(InvertType.FollowMaster);
 
-
     m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_VELOCITY, DriveConstants.PID_PRIMARY);
     m_rightFrontMotor.config_kF(DriveConstants.SLOT_VELOCITY, m_gainsVelocity.m_kF, DriveConstants.DRIVE_TIMEOUT_MS);
     m_rightFrontMotor.config_kP(DriveConstants.SLOT_VELOCITY, m_gainsVelocity.m_kP, DriveConstants.DRIVE_TIMEOUT_MS);
@@ -100,6 +105,15 @@ public class Drive extends SubsystemBase {
     m_rightFrontMotor.config_kD(DriveConstants.SLOT_DISTANCE, m_gainsDistance.m_kD, DriveConstants.DRIVE_TIMEOUT_MS);
     m_rightFrontMotor.configClosedLoopPeakOutput(DriveConstants.SLOT_DISTANCE, m_gainsDistance.m_kPeakOutput, DriveConstants.DRIVE_TIMEOUT_MS);    
 
+    m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_MOTION_MAGIC, DriveConstants.PID_PRIMARY);
+    m_rightFrontMotor.config_kF(DriveConstants.SLOT_MOTION_MAGIC, m_gainsMotionMagic.m_kF, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.config_kP(DriveConstants.SLOT_MOTION_MAGIC, m_gainsMotionMagic.m_kP, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.config_kI(DriveConstants.SLOT_MOTION_MAGIC, m_gainsMotionMagic.m_kI, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.config_kD(DriveConstants.SLOT_MOTION_MAGIC, m_gainsMotionMagic.m_kD, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.configMotionCruiseVelocity(DriveConstants.DRIVE_CRUISE_VELOCITY, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.configMotionAcceleration(DriveConstants.DRIVE_ACCELERATION, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.configMotionSCurveStrength(0, DriveConstants.DRIVE_TIMEOUT_MS);
+
     /* Setup Sensors for WPI_TalonFXs */
     m_leftFrontMotor.setSelectedSensorPosition(0, DriveConstants.PID_PRIMARY, DriveConstants.DRIVE_TIMEOUT_MS);
     m_rightFrontMotor.setSelectedSensorPosition(0, DriveConstants.PID_PRIMARY, DriveConstants.DRIVE_TIMEOUT_MS);
@@ -130,8 +144,8 @@ public class Drive extends SubsystemBase {
     m_rightFrontMotor.configSensorTerm(SensorTerm.Sum1, FeedbackDevice.IntegratedSensor, DriveConstants.DRIVE_TIMEOUT_MS);
 
     /* Diff Signal */
-    m_rightFrontMotor.configSensorTerm(SensorTerm.Diff0, FeedbackDevice.RemoteSensor0, DriveConstants.DRIVE_TIMEOUT_MS);
-    m_rightFrontMotor.configSensorTerm(SensorTerm.Diff1, FeedbackDevice.IntegratedSensor, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.configSensorTerm(SensorTerm.Diff1, FeedbackDevice.RemoteSensor0, DriveConstants.DRIVE_TIMEOUT_MS);
+    m_rightFrontMotor.configSensorTerm(SensorTerm.Diff0, FeedbackDevice.IntegratedSensor, DriveConstants.DRIVE_TIMEOUT_MS);
 
     /* Configure Sum [Sum of both QuadEncoders] to be used for Primary PID Index */
 		m_rightFrontMotor.configSelectedFeedbackSensor(	FeedbackDevice.SensorDifference,
@@ -234,6 +248,7 @@ public class Drive extends SubsystemBase {
       SmartDashboard.putNumber("Right Motor Velocity Raw", m_rightFrontMotor.getSelectedSensorVelocity());
       SmartDashboard.putNumber("Left Motor Position Raw", m_leftFrontMotor.getSelectedSensorPosition());
       SmartDashboard.putNumber("Right Motor Position Raw", m_rightFrontMotor.getSelectedSensorPosition(0));
+
       SmartDashboard.putNumber("Right Motor Velocity Int Sensor", m_rightFrontMotor.getSensorCollection().getIntegratedSensorVelocity());
       SmartDashboard.putNumber("Left Motor Velocity Int Sensor", m_leftFrontMotor.getSensorCollection().getIntegratedSensorVelocity());
 
@@ -320,8 +335,17 @@ public class Drive extends SubsystemBase {
     m_driveTrain.arcadeDrive(move, steer);
   }
 
+  public void driveWithInputAux(double move, double targetGyro) {
+    m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_TURNING, DriveConstants.PID_TURN);
+
+    m_rightFrontMotor.set(TalonFXControlMode.PercentOutput, move, DemandType.AuxPID, targetGyro);
+    m_leftFrontMotor.follow(m_rightFrontMotor, FollowerType.AuxOutput1);
+
+    m_driveTrain.feedWatchdog();
+  }
+
   /**
-   * Runs a position PID while driving straight (has not been tested)
+   * Runs a position PID while driving straight
    * @param targetPos The position to drive to in units
    * @param targetGyro The angle to drive at in units
    */
@@ -329,7 +353,6 @@ public class Drive extends SubsystemBase {
     m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_DISTANCE, DriveConstants.PID_PRIMARY);
     m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_TURNING, DriveConstants.PID_TURN);
 
-    targetPos *= 2;
     m_rightFrontMotor.set(TalonFXControlMode.Position, targetPos, DemandType.AuxPID, targetGyro);
     m_leftFrontMotor.follow(m_rightFrontMotor, FollowerType.AuxOutput1);
 
@@ -344,8 +367,6 @@ public class Drive extends SubsystemBase {
   public void runDriveStraightVelocityPID(double targetVel, double targetGyro) {
     m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_VELOCITY, DriveConstants.PID_PRIMARY);
     m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_TURNING, DriveConstants.PID_TURN);
-
-    targetVel *= 2;
     m_rightFrontMotor.set(TalonFXControlMode.Velocity, targetVel, DemandType.AuxPID, targetGyro);
     m_leftFrontMotor.follow(m_rightFrontMotor, FollowerType.AuxOutput1);
 
@@ -360,10 +381,10 @@ public class Drive extends SubsystemBase {
   public void runMotionMagicPID(double targetPos, double targetGyro){
     m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_MOTION_MAGIC, DriveConstants.PID_PRIMARY);
     m_rightFrontMotor.selectProfileSlot(DriveConstants.SLOT_TURNING, DriveConstants.PID_TURN);
-    
-    m_rightFrontMotor.set(TalonFXControlMode.MotionMagic, targetPos, DemandType.AuxPID, targetGyro);
+
+    m_rightFrontMotor.set(ControlMode.MotionMagic, targetPos, DemandType.AuxPID, targetGyro);
     m_leftFrontMotor.follow(m_rightFrontMotor, FollowerType.AuxOutput1);
-    
+
     m_driveTrain.feedWatchdog();
   }
 
@@ -414,4 +435,17 @@ public class Drive extends SubsystemBase {
     m_pigeon.setYaw(0);
     m_pigeon.setAccumZAngle(0);
   }
+
+  /**
+   * Set to high or low gear based on boolean state, true = high, false = low
+   * @param state Chooses between high or low gear
+   */
+  public void setShiftState(boolean state) {
+    if (state == true) {
+			speedShift.set(DoubleSolenoid.Value.kForward);
+		}
+		if (state == false) {
+			speedShift.set(DoubleSolenoid.Value.kReverse);
+		}
+  }
 }

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

@@ -7,19 +7,38 @@
 
 package frc4388.robot.subsystems;
 
+import com.revrobotics.CANDigitalInput;
+import com.revrobotics.CANSparkMax;
+import com.revrobotics.CANDigitalInput.LimitSwitchPolarity;
+import com.revrobotics.CANSparkMax.IdleMode;
+import com.revrobotics.CANSparkMaxLowLevel.MotorType;
+
 import edu.wpi.first.wpilibj.Spark;
 import edu.wpi.first.wpilibj2.command.SubsystemBase;
 import frc4388.robot.Constants.IntakeConstants;
 
 public class Intake extends SubsystemBase {
-  Spark m_intakeMotor = new Spark(IntakeConstants.INTAKE_SPARK_ID);
-  
+  CANSparkMax m_intakeMotor = new CANSparkMax(IntakeConstants.INTAKE_SPARK_ID, MotorType.kBrushless);
+  CANSparkMax m_extenderMotor = new CANSparkMax(IntakeConstants.EXTENDER_SPARK_ID, MotorType.kBrushless);
+  CANDigitalInput m_extenderForwardLimit;
+  CANDigitalInput m_extenderReverseLimit;
+
   /**
    * Creates a new Intake.
    */
   public Intake() {
-    
+    m_intakeMotor.restoreFactoryDefaults();
+    m_extenderMotor.restoreFactoryDefaults();
+
+    m_intakeMotor.setIdleMode(IdleMode.kCoast);
+    m_extenderMotor.setIdleMode(IdleMode.kBrake);
     m_intakeMotor.setInverted(false);
+    m_extenderMotor.setInverted(false);
+    
+    m_extenderForwardLimit = m_extenderMotor.getForwardLimitSwitch(LimitSwitchPolarity.kNormallyClosed);
+    m_extenderReverseLimit = m_extenderMotor.getReverseLimitSwitch(LimitSwitchPolarity.kNormallyClosed);
+    m_extenderForwardLimit.enableLimitSwitch(false);
+    m_extenderReverseLimit.enableLimitSwitch(false);
   }
 
   @Override
@@ -34,4 +53,12 @@ public class Intake extends SubsystemBase {
   public void runIntake(double input) {
     m_intakeMotor.set(input);
   }
+  
+   /**
+   * Runs extender motor
+   * @param input the percent output to run motor at
+   */
+  public void runExtender(double input) {
+    m_extenderMotor.set(input);
+  }
 }

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

@@ -0,0 +1,90 @@
+/*----------------------------------------------------------------------------*/
+/* 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 edu.wpi.first.wpilibj.smartdashboard.SmartDashboard;
+import edu.wpi.first.wpilibj2.command.SubsystemBase;
+import frc4388.robot.Gains;
+import frc4388.robot.Constants.DriveConstants;
+import frc4388.robot.Constants.ShooterConstants;
+
+public class Shooter extends SubsystemBase {
+
+  public WPI_TalonFX m_shooterFalcon = new WPI_TalonFX(ShooterConstants.SHOOTER_FALCON_ID);
+
+  public static Gains m_shooterGains = ShooterConstants.SHOOTER_GAINS;
+
+  double velP;
+  /**
+   * Creates a new Shooter subsystem.
+   */
+  public Shooter() {
+    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
+    }
+  }
+}