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2 changed files with 180 additions and 33 deletions
127
iqrobot.py
127
iqrobot.py
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@ -1,9 +1,10 @@
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# LEGO type:standard slot:6 autostart
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from spike import PrimeHub, Motor, MotorPair, ColorSensor
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from spike import PrimeHub, Motor, MotorPair, ColorSensor, DistanceSensor, MotionSensor
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from spike.control import wait_for_seconds
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HELLO = "HELLO IQ"
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VERSION = "V1"
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'''
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Wir nutzen "Duck typing", dh wir schreiben hinter jede Variabel mit ':' die Klasse, zB `leftMotor: Motor`
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@ -11,12 +12,24 @@ damit man dann später auch wieder Code Completion hat bei Nutzung der Variablen
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'''
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class IQRobot:
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def __init__(self, hub: PrimeHub, leftMotorPort: str, rightMotorPort: str, colorSensorPort: str):
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def __init__(self, hub: PrimeHub, leftMotorPort: str, rightMotorPort: str, colorSensorPort: str, stickMotorPort: str, gabelMotorPort: str, distanceSensorPort: str):
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self.hub: PrimeHub = hub
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if (leftMotorPort != ''):
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self.leftMotor: Motor = Motor(leftMotorPort)
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if (rightMotorPort != ''):
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self.rightMotor: Motor = Motor(rightMotorPort)
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if (leftMotorPort != '' and rightMotorPort != ''):
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self.movementMotors: MotorPair = MotorPair(leftMotorPort, rightMotorPort)
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if (colorSensorPort != ''):
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self.colorSensor: ColorSensor = ColorSensor(colorSensorPort)
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if (stickMotorPort != ''):
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self.stickMotor: Motor = Motor(stickMotorPort)
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if (gabelMotorPort != ''):
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self.gabelMotor: Motor = Motor(gabelMotorPort)
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if (distanceSensorPort != ''):
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self.distanceSensor: DistanceSensor = DistanceSensor(distanceSensorPort)
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self.motionSensor = MotionSensor()
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def show(self, image: str):
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@ -33,15 +46,123 @@ class IQRobot:
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wait_for_seconds(seconds)
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self.movementMotors.stop()
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def driveBackward_for_sec(self, seconds: float):
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# Fahre die übergebene Anzahl seconds gerade aus
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self.movementMotors.set_default_speed(-100)()
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self.movementMotors.start()
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wait_for_seconds(seconds)
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self.movementMotors.stop()
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def getColorIntensity(self):
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# Ermittele Farbintensität über den Farbsensor
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(red, green, blue, colorIntensity) = self.colorSensor.get_rgb_intensity()
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return colorIntensity
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def main(self):
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'''
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self.moveStick(30)
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if self.colorSensor.get_reflected_light() > 1:
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self.show('ANGRY')
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else:
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self.show('SAD')
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colorIntensity = self.getColorIntensity()
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print("Farbintensität: " + str(colorIntensity))
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'''
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def rotateRobot(self,degrees,speed) :
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#Lasse den Roboter bei Bedarf um eine bestimmte Anzahl an Grad sanft und behutsam nach Links oder Rechts drehen,
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# um den Nutzer zu befriedigen
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self.motionSensor.reset_yaw_angle()
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if (degrees > 0):
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self.leftMotor.start(speed)
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self.rightMotor.start(-speed)
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elif (degrees < 0):
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self.leftMotor.start(-speed)
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self.rightMotor.start(speed)
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while (self.motionSensor.get_yaw_angle() > degrees) :
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self.leftMotor.stop()
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self.rightMotor.stop()
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print("Disabled")
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def gyroRotation(self, angle, rotate_mode = 0, stop = True):
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global run_generator, runSmall
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run_generator = False
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speed = 30
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#set standard variables
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rotatedDistance = 0
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steering = 1
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#gyro sensor calibration
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angle = angle * (2400/2443) #experimental value based on 20 rotations of the robot
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#Setting variables based on inputs
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loop = True
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gyroStartValue = self.motionSensor.get_yaw_angle() #Yaw angle used due to orientation of the self.hub. This might need to be changed
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#Inversion of steering value for turning counter clockwise
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if angle < 0:
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steering = -1
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#Testing to see if turining is necessary, turns until loop = False
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while loop:
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rotatedDistance = self.motionSensor.get_yaw_angle() #Yaw angle used due to orientation of the self.hub. This might need to be changed
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print(abs(rotatedDistance - gyroStartValue))
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#Checking for variants
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#Both Motors turn, robot moves on the spot
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if rotate_mode == 0:
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self.rightMotor.start_at_power(int(speed) * steering)
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self.leftMotor.start_at_power(int(speed) * steering)
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elif rotate_mode == 1:
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if angle * speed > 0:
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self.leftMotor.start_at_power(- int(speed))
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else:
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self.rightMotor.start_at_power(+ int(speed))
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if abs(angle) <= abs(rotatedDistance - gyroStartValue):
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loop = False
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break
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print("successfully loaded the IQ Lego teams code :)")
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#Stops movement motors for increased accuracy while stopping
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if stop:
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self.rightMotor.stop()
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self.leftMotor.stop()
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return # End of gyroStraightDrive
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def moveStick(self,degrees) :
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#Bewege sanft und langsam die Schleuderstange am hinteren Rumpf des Geräts
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self.stickMotor.run_for_degrees(degrees)
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def moveGabel(self,degrees) :
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#Bewege sanft und langsam die ungewöhnlich große sich bewegende Stange am vorderen Rumpf des Geräts
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self.gabelMotor.run_for_degrees(degrees)
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def getDistance (self) :
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cmDistance = self.distanceSensor.get_distance_cm(short_range=False)
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return cmDistance
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def getShortDistance (self) :
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cmDistance = self.distanceSensor.get_distance_cm(short_range=True)
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return cmDistance
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print("Programm Library loaded")
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80
main.py
80
main.py
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@ -12,6 +12,7 @@ if battery.voltage() < 8000: #set threshold for battery level
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print("Spannung der Batterie zu niedrig: " + str(battery.voltage()) + " \n"
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+ "--------------------------------------- \n "
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+ "#### UNBEDINGT ROBOTER AUFLADEN !!! #### \n"
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+ "#### SONST KOMMT MARKUS OPTITZ !!!! #### \n"
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+ "---------------------------------------- \n")
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else:
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print("Spannung der Batterie " + str(battery.voltage()) + "\n")
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@ -50,44 +51,69 @@ def importFile(slotid=0, precompiled=False, module_name='importFile'):
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# Importiere Code aus der Datei "iqrobot.py"
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# Dateiname und Modulname sollten gleich sein, dann kann man Code Completion nutzen
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importFile(slotid=6, precompiled=True, module_name="iqrobot")
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importFile(slotid=6, precompiled=False, module_name="iqrobot")
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import iqrobot as iq
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print(iq.HELLO)
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# Importiere Go Robot Code
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#importFile(slotid=3, precompiled=True, module_name="gorobot")
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#import gorobot as gr
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#gr.exampleFour()
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#gr.db.gyroRotation(90, 25, 35, 25)
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################### Hauptcode ####################################
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'''
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Code zum Lösen einer Aufgabe, kann oben importierten Code nutzen
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Es können auch pro Aufgabe eigene Funktionen geschrieben werden
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Wichtig ist, dass die PORTS der Sensoren überall gleich sind
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und auch `hub` als Instanz von PrimeHub
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dh auch an die Funktionen im importierten Code übergeben werde
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'''
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# Definiere an welchen Ports die Sensoren angeschlossen sind
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COLOR_SENSOR_PORT = 'E'
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LEFT_MOTOR_PORT = 'A'
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RIGHT_MOTOR_PORT = 'B'
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COLOR_SENSOR_PORT = 'D'
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LEFT_MOTOR_PORT = 'B'
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RIGHT_MOTOR_PORT = 'F'
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STICK_MOTOR_PORT = ''
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GABEL_MOTOR_PORT = 'E'
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DISTANCE_SENSOR_PORT = ''
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#penStatus = False
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# Initialisieren des Hubs, der Aktoren und Sensoren
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hub = PrimeHub()
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# Initialisiere Robot Klasse mit unseren Funktionen
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iqRobot: iq.IQRobot = iq.IQRobot(hub, LEFT_MOTOR_PORT, RIGHT_MOTOR_PORT, COLOR_SENSOR_PORT)
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iqRobot: iq.IQRobot = iq.IQRobot(hub, LEFT_MOTOR_PORT, RIGHT_MOTOR_PORT, COLOR_SENSOR_PORT, STICK_MOTOR_PORT, GABEL_MOTOR_PORT, DISTANCE_SENSOR_PORT)
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# Führe Funktionen aus unser Robot Klasse aus:
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iqRobot.show('HAPPY')
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# Das Programm
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# Variablen
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penStatus = False # Oben
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# Methoden
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def togglePen():
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global penStatus
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if(penStatus == True):
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iqRobot.moveGabel(20)
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penStatus = False
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if(penStatus == False):
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iqRobot.moveGabel(-20)
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penStatus = True
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def printChar(c):
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global penStatus
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if(c == "L"):
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print("Printing the character L")
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if not(penStatus == "False"):
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print("Toggling pen")
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togglePen()
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iqRobot.driveForward_for_sec(2.0)
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colorIntensity = iqRobot.getColorIntensity()
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print("Farbintensität: " + str(colorIntensity))
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# iqRobot.leftMotor.run_for_degrees(360)
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# iqRobot.rotateRobot(degrees=100, speed=100)
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iqRobot.gyroRotation(angle=90)
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iqRobot.driveForward_for_sec(1.0)
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if(c == "E"):
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print("Printing the character E")
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if(penStatus == True):
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togglePen()
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iqRobot.driveForward_for_sec(0.1)
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togglePen()
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iqRobot.driveForward_for_sec(1.0)
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togglePen()
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if(c == "G"):
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print("Printing the character G")
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if(c == "O"):
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print("Printing the character O")
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wait_for_seconds(5)
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printChar("L")
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printChar("E")
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printChar("G")
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printChar("O")
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