Ejemplo n.º 1
0
 public void autoShoot() {
   try {
     tester1.setX(10.3); // 9.5 8.2 2 pt
     tester2.setX(7.8);
   } catch (CANTimeoutException ex) {
     ex.printStackTrace();
   }
 }
Ejemplo n.º 2
0
  // Resets position in order to reload frisbee later
  public void reload() throws CANTimeoutException {

    if (backSwitch.get()) {
      loadingStick.setX(0);
    } else {
      loadingStick.setX(-.8);
    }
  }
 /**
  * Run the rollers at opposite speeds to articulate the tubes up/down
  *
  * @param speed The speed to run the rollers
  */
 public void articulate(double speed) {
   try {
     rollerA.setX(-speed * .75); // Motors are different... scale one
     rollerB.setX(speed);
   } catch (Exception e) {
     e.printStackTrace();
   }
 }
Ejemplo n.º 4
0
  // Loads the frisbee into the shooter
  public void load() throws CANTimeoutException {

    if (frontSwitch.get()) {
      loadingStick.setX(0);
    } else {
      loadingStick.setX(.8);
    }
  }
Ejemplo n.º 5
0
  public void autoShootMid() { // shoot middle
    try {
      tester1.setX(10.5);
      tester2.setX(8.0); // 9.2

    } catch (CANTimeoutException ex) {
      ex.printStackTrace();
    }
  }
Ejemplo n.º 6
0
  public void autoShootThreeSide() { // shoot middle
    try {
      tester1.setX(10.6);
      tester2.setX(8.5);

    } catch (CANTimeoutException ex) {
      ex.printStackTrace();
    }
  }
Ejemplo n.º 7
0
 public void setIntake(double power) {
   try {
     arm.setX(power);
   } catch (CANTimeoutException ex) {
     ex.printStackTrace();
   }
 }
Ejemplo n.º 8
0
  public void setSpeed(double rpm) throws CANTimeoutException {

    // Right now, we're using voltage control mode
    // guess voltage to rpm relationship
    double voltage = rpm / 0;

    // Check to see if 'rpm' works
    if ((firstShootingMotor.getControlMode() == CANJaguar.ControlMode.kVoltage)
        && (secondShootingMotor.getControlMode() == CANJaguar.ControlMode.kVoltage)) {
      firstShootingMotor.setX(voltage);
    } else {
      firstShootingMotor.setX(rpm);

      secondShootingMotor.setX(rpm);
    }
  }
Ejemplo n.º 9
0
 /**
  * Sets the target angle of the flipper in degrees. 0 is parallel to the ground.
  *
  * @param angle The target angle of the flipper.
  */
 public void setFlippers(double angle) {
   try {
     jagFlip.setX(4.3 + ElectricalConstants.potDtoV * angle);
   } catch (CANTimeoutException ex) {
     ex.printStackTrace();
   }
 }
Ejemplo n.º 10
0
 public void shoot(double speed) {
   try {
     launcher.setX(speed);
   } catch (CANTimeoutException ex) {
     System.out.println("Cannot launch " + ex);
   }
 }
Ejemplo n.º 11
0
 /** Ingestor conveyor stops */
 public static void stopIngest() {
   try {
     ingestConveyor.setX(0.0);
   } catch (CANTimeoutException ex) {
     System.out.println("CAN TIMEOUT EXCEPTION ON INGEST CONVEYOR");
     Log.write("CANJag Timeout Exception on Ingest Conveyor");
   }
 }
Ejemplo n.º 12
0
 /** Shooter conveyor goes in reverse at feeder station */
 public static void feedMode() {
   try {
     shooterConveyor.setX(Constants.CONV_SHOOTER_POWER);
   } catch (CANTimeoutException ex) {
     System.out.println("CAN TIMEOUT EXCEPTION ON SHOOTER CONVEYOR");
     Log.write("CANJag Timeout Exception on Shooter Conveyor");
   }
 }
Ejemplo n.º 13
0
 /** Stops the shooter */
 public static void stopShooter() {
   try {
     shooterConveyor.setX(0.0);
   } catch (CANTimeoutException ex) {
     System.out.println("CAN TIMEOUT EXCEPTION ON SHOOTER CONVEYOR");
     Log.write("CANJag Timeout Exception on Shooter Conveyor");
   }
 }
 /**
  * Run a motor at the set speed
  *
  * @param motor 0 for motorA, 1 for motorB
  * @param speed the speed to run said motor
  */
 public void setRaw(int motor, double speed) {
   switch (motor) {
     case 0:
       try {
         rollerA.setX(speed);
       } catch (Exception e) {
         e.printStackTrace();
       }
       break;
     case 1:
       try {
         rollerB.setX(speed);
       } catch (Exception e) {
         e.printStackTrace();
       }
       break;
   }
 }
Ejemplo n.º 15
0
 public void drive() {
   try {
     magOne = this.oi.getXJoystick().getY();
     if (Math.abs(magOne) < deadZone) {
       magOne = 0;
     }
     if (Math.abs(magTwo) < deadZone) {
       magTwo = 0;
     }
     speedOne = magOne * speedmultOne; // 4500
     speedTwo = magTwo * speedmultTwo; // 14000
     tspeedTwo = magOne * speedmultTwo;
     tester1.setX(-speedOne);
     tester2.setX(-tspeedTwo);
   } catch (CANTimeoutException ex) {
     ex.printStackTrace();
   }
 }
Ejemplo n.º 16
0
 /** Unjams the shooter conveyor */
 public static void shakeShooter() {
   timer.start();
   while (timer.get() < 2) {
     if (direction) {
       try {
         shooterConveyor.setX(Constants.CONV_SHOOTER_POWER);
       } catch (CANTimeoutException ex) {
         ex.printStackTrace();
       }
     } else {
       try {
         shooterConveyor.setX(-Constants.CONV_SHOOTER_POWER);
       } catch (CANTimeoutException ex) {
         ex.printStackTrace();
       }
     }
   }
   direction = !direction;
   timer.reset();
 }
Ejemplo n.º 17
0
 /** Unjams the ingestor conveyor */
 public static void shakeIngest() {
   timer.start();
   while (timer.get() < 2) {
     if (direction) {
       try {
         ingestConveyor.setX(Constants.CONV_INGEST_POWER);
       } catch (CANTimeoutException ex) {
         ex.printStackTrace();
       }
     } else {
       try {
         ingestConveyor.setX(-Constants.CONV_INGEST_POWER);
       } catch (CANTimeoutException ex) {
         ex.printStackTrace();
       }
     }
   }
   direction = !direction;
   timer.reset();
 }
Ejemplo n.º 18
0
  /**
   * Open loop control for the climb mast, using voltage percentage.
   *
   * @param power The voltage of the climb motor specified from -1.0 to 1.0.
   */
  public void ClimbOpenLoop(double power) {

    if (ClimbJag != null) {
      try {
        // play with stuff under to see if it needs to be inverted
        ClimbJag.setX(power * defaultMaxSpeed);
      } catch (CANTimeoutException ex) {
        m_fault = true;
        System.err.println("****************CAN timeout***********");
      }
    }
  }
Ejemplo n.º 19
0
  /**
   * Move the arm
   *
   * @param rpm the speed of the arm
   */
  public void moveArm(double speed) {
    try {
      if (turbomode) {
        jag.setX(.6 * (speed));
        try {
          CANJaguar.updateSyncGroup(syncGroup);
        } catch (CANNotInitializedException e) {
        }
      } else {
        jag.setX(.3 * (speed));
        try {
          CANJaguar.updateSyncGroup(syncGroup);
        } catch (CANNotInitializedException e) {
        }
      }

    } catch (CANTimeoutException ex) {
      //                  ex.printStackTrace();
      System.out.println("CANNDriveTrain.java:133");
    }
    if (m_safetyHelper != null) m_safetyHelper.feed();
  }
Ejemplo n.º 20
0
  /** This function is called periodically during autonomous */
  public void autonomousPeriodic() {
    wedge.moveDown();
    lights.set(Relay.Value.kForward);
    // tracking.run();
    try {
      driveMainBelt(true, true);
      csc.setSetpoint(2300); // 15' = ~2400rpm
      if (launcher.getSpeed() < -2250) {
        try {
          belt2.setX(-1);
        } catch (Exception e) {
        }
      } else {
        belt2.setX(0);
      }
      station.println(DriverStationLCD.Line.kMain6, 1, "RPM: " + String.valueOf(csc.tmpResult));
    } catch (CANTimeoutException ex) {
    }

    /*try{
        if(tracking.foundTarget()){
            station.println(DriverStationLCD.Line.kUser2, 1, "Distance: " + String.valueOf(tracking.getTarget("HIGH").distance));
            station.println(DriverStationLCD.Line.kUser3, 1, "Suggested RPM: " + String.valueOf(tracking.getTarget("HIGH").distance*62.8));
            if(x>0)
                station.println(DriverStationLCD.Line.kUser4, 1, "Rotation: <--");
            else if(x<0)
                station.println(DriverStationLCD.Line.kUser4, 1, "Roation: -->");
            else
                station.println(DriverStationLCD.Line.kUser4, 1, "I don't need to rotate");
        }
        else{
            station.println(DriverStationLCD.Line.kUser2, 1, "Help, I can't find target by myself!");
            station.println(DriverStationLCD.Line.kUser3, 1, "");
            station.println(DriverStationLCD.Line.kUser4, 1, "");
        }
    }catch(Exception e){}*/
    station.updateLCD();
  }
Ejemplo n.º 21
0
 /**
  * Closed loop control for the climb mast.
  *
  * @param vertical The vertical distance to drive to. A distance of 0 is the lower limit of the
  *     mast. The distance is specified in ??? and should always be positive.
  */
 public void ClimbClosedLoop(double vertical) {
   // Need to change vertical distance (specified in inches) to something
   // the Jaguar can use (revs)
   // Also ensure that vertical is positive.
   // convert from inches to revolutions
   double revolution = vertical / distPerRev;
   m_setPoint = revolution + revolutionHome;
   if (ClimbJag != null) {
     try {
       // the formula below will probably be subject to change
       // may need to be inverted (is this inversion correct?)  2/9
       ClimbJag.setX(m_setPoint);
     } catch (CANTimeoutException ex) {
       m_fault = true;
       System.err.println("****************CAN timeout***********");
     }
   }
 }
Ejemplo n.º 22
0
 /**
  * Set the output set-point value.
  *
  * <p>The scale and the units depend on the mode the Jaguar is in. In PercentVbus Mode, the
  * outputValue is from -1.0 to 1.0 (same as PWM Jaguar). In Voltage Mode, the outputValue is in
  * Volts. In Current Mode, the outputValue is in Amps. In Speed Mode, the outputValue is in
  * Rotations/Minute. In Position Mode, the outputValue is in Rotations.
  *
  * @param outputValue The set-point to sent to the motor controller.
  */
 public void setX(double outputValue) throws CANTimeoutException {
   setX(outputValue, (byte) 0);
 }
Ejemplo n.º 23
0
 /**
  * Set the output set-point value.
  *
  * <p>Needed by the SpeedControl interface (swallows CANTimeoutExceptions).
  *
  * @deprecated Use setX instead.
  * @param outputValue The set-point to sent to the motor controller.
  * @param syncGroup The update group to add this set() to, pending updateSyncGroup(). If 0, update
  *     immediately.
  */
 public void set(double outputValue, byte syncGroup) {
   try {
     setX(outputValue, syncGroup);
   } catch (CANTimeoutException e) {
   }
 }
Ejemplo n.º 24
0
  /** This function is called periodically during operator control */
  public void teleopPeriodic() {
    lights.set(Relay.Value.kForward);
    // tracking.run();
    /*try {
        readString = serial.readString();
        readString = readString.substring(readString.indexOf("data{"), readString.indexOf("}"));
        xTurn = readString.substring(readString.indexOf("x("), readString.indexOf(")"));
        xTurnVal = Integer.parseInt(xTurn);
    } catch (VisaException ex) {
        System.out.println("Error Reading string - " + ex);
    }*/
    y = drive_control.getRawAxis(1);
    x = drive_control.getRawAxis(2);
    t = drive_control.getRawAxis(3);

    if (y > 1) y = 1;
    else if (y < -1) y = -1;

    if (x > 1) x = 1;
    else if (x < -1) x = -1;

    drive.setDriveJ(x, y, t);

    /*if(drive_control.getRawButton(12))
        //wheelsOn = true;
    else if(drive_control.getRawButton(11));
        wheelsOn = false;*/

    /*try{
        launcher.setX((drive_control.getRawAxis(4)-1)/2);
    }catch(Exception e){}*/

    // System.out.println((drive_control.getRawAxis(4)-1)*-1350);
    if (!autoWheels) {
      csc.setSetpoint((drive_control.getRawAxis(4) - 1) * -1500);
      try {
        // launcher.setX((drive_control.getRawAxis(4)+1)*2000);
        System.out.println(
            -launcher.getSpeed()
                + " -- "
                + csc.tmpResult
                + " -- "
                + (drive_control.getRawAxis(4) - 1) * -1500);
      } catch (Exception e) {
        System.out.println(e);
      }
      if (drive_control.getRawButton(11)) autoWheels = true;
    } else {
      csc.setSetpoint(2300);
      if (drive_control.getRawButton(11)) autoWheels = false;
    }

    /*if(wheelsOn)
        shoot(1);
    else
        shoot(0);*/

    if (drive_control.getRawButton(5)) {
      wedge.moveDown();
      // servo1.set(1);
      // servo2.set(0);
      // wedge.set(Relay.Value.kForward);
    } else if (drive_control.getRawButton(6)) {
      wedge.moveUp();
      // servo1.set(0);
      // servo2.set(1);
      // wedge.set(Relay.Value.kReverse);
    } else {
      // servo1.set(.5);
      // servo2.set(.5);
      // wedge.set(Relay.Value.kOff);
    }

    if (drive_control.getRawButton(3)) turret.set(.5);
    else if (drive_control.getRawButton(4)) turret.set(-.5);
    else turret.set(0);

    if (drive_control.getRawButton(2)) driveMainBelt(true, true);
    else if (drive_control.getRawButton(7)) driveMainBelt(false, true);
    else driveMainBelt(false, false);

    if (drive_control.getTrigger()) {
      try {
        belt2.setX(-1);
      } catch (Exception e) {
      }
    } else if (drive_control.getRawButton(8)) {
      try {
        belt2.setX(1);
      } catch (Exception e) {
      }
    } else {
      try {
        belt2.setX(0);
      } catch (Exception e) {
      }
    }

    if (control.getRawButton(3)) {
      turret.set(.25);
    } else if (control.getRawButton(4)) {
      turret.set(-.25);
    } else {
      turret.set(0);
    }

    try {
      station.println(
          DriverStationLCD.Line.kMain6, 1, "RPM: " + String.valueOf(-launcher.getSpeed()));
    } catch (CANTimeoutException ex) {
    }
    /*try{
        if(tracking.foundTarget()){
            station.println(DriverStationLCD.Line.kUser2, 1, "Distance: " + String.valueOf(tracking.getTarget("HIGH").distance));
            station.println(DriverStationLCD.Line.kUser3, 1, "Suggested RPM: " + String.valueOf(tracking.getTarget("HIGH").distance*62.8));
            if(x>0)
                station.println(DriverStationLCD.Line.kUser4, 1, "Rotation: <--");
            else if(x<0)
                station.println(DriverStationLCD.Line.kUser4, 1, "Roation: -->");
            else
                station.println(DriverStationLCD.Line.kUser4, 1, "I don't need to rotate");
        }
        else{
            station.println(DriverStationLCD.Line.kUser2, 1, "Help, I can't find target by myself!");
            station.println(DriverStationLCD.Line.kUser3, 1, "");
            station.println(DriverStationLCD.Line.kUser4, 1, "");
        }
    }catch(Exception e){}*/
    station.updateLCD();
  }
Ejemplo n.º 25
0
  // Stops all motors once frisbee is thrown
  public void stop() throws CANTimeoutException {

    angleMotor.setX(0);
    firstShootingMotor.setX(0);
    secondShootingMotor.setX(0);
  }
Ejemplo n.º 26
0
  // Shoots the frisbee once it is angled and loaded
  public void shoot() throws CANTimeoutException {

    firstShootingMotor.setX(0.7);
    secondShootingMotor.setX(0.7);
  }