Vehicle-Anti-Theft-Face-Rec.../Hardware/Updated_HW_codes/NewMotorFunc.py

import RPi.GPIO as GPIO
import pyrebase          # u need to install Pyrebase module firstly
from time import sleep

class Motor:
    
    
    print("Starting of the program")
    
    def __init__(self):
        
        config = {     
          "apiKey": "AIzaSyAdL0W5HscjEDFPK4BDi6Cnc7FLa30GPYY",
          "authDomain": "vehicleantitheftrecognition.firebaseapp.com",
          "databaseURL": "https://vehicleantitheftrecognition.firebaseio.com/",
          "storageBucket": "vehicleantitheftrecognition.firebaseapp.com"
        }

        self.firebase = pyrebase.initialize_app(config)
        
        GPIO.setmode(GPIO.BCM)
        GPIO.setwarnings(False)
    
        #preset GPIO ports for 2 motors
        self.Motor1 = {'EN': 25, 'input1': 24, 'input2': 23}
        self.Motor2 = {'EN': 17, 'input1': 27, 'input2': 22}
        
        # preset the port for buttons and alarm
        GPIO.setup(5,GPIO.IN)     # start motor button, initially True
        GPIO.setup(13,GPIO.IN)    # stop motor button, initially True
        GPIO.setup(16,GPIO.IN)    # start alarm button, initially True
        GPIO.setup(26,GPIO.OUT)   # alarm output
        
        for x in self.Motor1:
            GPIO.setup(self.Motor1[x], GPIO.OUT)
            GPIO.setup(self.Motor2[x], GPIO.OUT)

        #utilize PWM function, enable motors and frequency is 100Hz
        self.EN1 = GPIO.PWM(self.Motor1['EN'], 100)    
        self.EN2 = GPIO.PWM(self.Motor2['EN'], 100)    

        self.EN1.start(0)                    
        self.EN2.start(0)
        
        #stop signals for motors and alarm
        self.motorStop=False
        self.alarmStop=False
        
     
    
# new update motor and alarm functions, are able to connect embedded system throught firebase

    def start_motor(self):
        
        self.motorStop=self.stop_motor()
        
        while (not self.motorStop) or (not GPIO.input(5)): #break the loop when motor stop signal is detected
            
            self.motorStop=self.stop_motor()

    
    def stop_motor(self):
        
        database = self.firebase.database() # get alarm on/off signal from firebase
        signals = database.child("signal")
        motorSignal = signals.child("1").child("motor").get().val()
        
        
        if (motorSignal=="off") or (not GPIO.input(13)):
            print("stopping motor...")
            self.EN1.ChangeDutyCycle(0)
            self.EN2.ChangeDutyCycle(0)
            print("motor stops")
            return True
        elif motorSignal=="on":
            
            self.EN1.ChangeDutyCycle(50)
            self.EN2.ChangeDutyCycle(50)

            GPIO.output(self.Motor1['input1'], GPIO.HIGH)
            GPIO.output(self.Motor1['input2'], GPIO.LOW)
                
            GPIO.output(self.Motor2['input1'], GPIO.HIGH)
            GPIO.output(self.Motor2['input2'], GPIO.LOW)
            
            print("motor is turned on")
            return False

    
    def start_alarm(self):
        
        self.alarmStop=self.stop_alarm()
        
        while (not self.alarmStop) or (not GPIO.input(16)): # if alarmStop is False or button is pressed
#                                                           # enter the loop
            self.alarmStop=self.stop_alarm()                # infinitely check if alarmStop True
            
                                                            # break the loop if alarm is turned off
    def stop_alarm(self):
        
        database = self.firebase.database() # get alarm on/off signal from firebase
        signals = database.child("signal")
        alarmSignal = signals.child("1").child("alarm").get().val()

        if alarmSignal=="off":
            print("Alarm turning off...")
            self.alarmStop=True
            GPIO.output(26,False)
            print("Alarm is off")
            return True
        elif alarmSignal=="on":
            GPIO.output(26,True)
            print("Alarm is turned on")
            return False

        
if _name__=="__main_":
        
    #print("Execute function...")
        
    
    motor1=Motor()
    
    while True: # turn on the system forever
        
        motor1.start_alarm() # alarm on/off test
        motor1.start_motor() # motor on/off test
Updated The Code. 2020-11-18 02:56:47 +00:00			`import RPi.GPIO as GPIO`
			`import pyrebase # u need to install Pyrebase module firstly`
			`from time import sleep`

			`class Motor:`


			`print("Starting of the program")`

			`def __init__(self):`

			`config = {`
			`"apiKey": "AIzaSyAdL0W5HscjEDFPK4BDi6Cnc7FLa30GPYY",`
			`"authDomain": "vehicleantitheftrecognition.firebaseapp.com",`
			`"databaseURL": "https://vehicleantitheftrecognition.firebaseio.com/",`
			`"storageBucket": "vehicleantitheftrecognition.firebaseapp.com"`
			`}`

			`self.firebase = pyrebase.initialize_app(config)`

			`GPIO.setmode(GPIO.BCM)`
			`GPIO.setwarnings(False)`

			`#preset GPIO ports for 2 motors`
			`self.Motor1 = {'EN': 25, 'input1': 24, 'input2': 23}`
			`self.Motor2 = {'EN': 17, 'input1': 27, 'input2': 22}`

			`# preset the port for buttons and alarm`
			`GPIO.setup(5,GPIO.IN) # start motor button, initially True`
			`GPIO.setup(13,GPIO.IN) # stop motor button, initially True`
			`GPIO.setup(16,GPIO.IN) # start alarm button, initially True`
			`GPIO.setup(26,GPIO.OUT) # alarm output`

			`for x in self.Motor1:`
			`GPIO.setup(self.Motor1[x], GPIO.OUT)`
			`GPIO.setup(self.Motor2[x], GPIO.OUT)`

			`#utilize PWM function, enable motors and frequency is 100Hz`
			`self.EN1 = GPIO.PWM(self.Motor1['EN'], 100)`
			`self.EN2 = GPIO.PWM(self.Motor2['EN'], 100)`

			`self.EN1.start(0)`
			`self.EN2.start(0)`

			`#stop signals for motors and alarm`
			`self.motorStop=False`
			`self.alarmStop=False`



			`# new update motor and alarm functions, are able to connect embedded system throught firebase`

			`def start_motor(self):`

			`self.motorStop=self.stop_motor()`

			`while (not self.motorStop) or (not GPIO.input(5)): #break the loop when motor stop signal is detected`

			`self.motorStop=self.stop_motor()`


			`def stop_motor(self):`

			`database = self.firebase.database() # get alarm on/off signal from firebase`
			`signals = database.child("signal")`
			`motorSignal = signals.child("1").child("motor").get().val()`


			`if (motorSignal=="off") or (not GPIO.input(13)):`
			`print("stopping motor...")`
			`self.EN1.ChangeDutyCycle(0)`
			`self.EN2.ChangeDutyCycle(0)`
			`print("motor stops")`
			`return True`
			`elif motorSignal=="on":`

			`self.EN1.ChangeDutyCycle(50)`
			`self.EN2.ChangeDutyCycle(50)`

			`GPIO.output(self.Motor1['input1'], GPIO.HIGH)`
			`GPIO.output(self.Motor1['input2'], GPIO.LOW)`

			`GPIO.output(self.Motor2['input1'], GPIO.HIGH)`
			`GPIO.output(self.Motor2['input2'], GPIO.LOW)`

			`print("motor is turned on")`
			`return False`


			`def start_alarm(self):`

			`self.alarmStop=self.stop_alarm()`

			`while (not self.alarmStop) or (not GPIO.input(16)): # if alarmStop is False or button is pressed`
			`# # enter the loop`
			`self.alarmStop=self.stop_alarm() # infinitely check if alarmStop True`

			`# break the loop if alarm is turned off`
			`def stop_alarm(self):`

			`database = self.firebase.database() # get alarm on/off signal from firebase`
			`signals = database.child("signal")`
			`alarmSignal = signals.child("1").child("alarm").get().val()`

			`if alarmSignal=="off":`
			`print("Alarm turning off...")`
			`self.alarmStop=True`
			`GPIO.output(26,False)`
			`print("Alarm is off")`
			`return True`
			`elif alarmSignal=="on":`
			`GPIO.output(26,True)`
			`print("Alarm is turned on")`
			`return False`


			`if _name__=="__main_":`

			`#print("Execute function...")`


			`motor1=Motor()`

			`while True: # turn on the system forever`

			`motor1.start_alarm() # alarm on/off test`
Add files via upload 2020-11-18 01:52:05 +00:00			`motor1.start_motor() # motor on/off test`