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'final1.2_mit_Verzoegerung.py' löschen

Yang Zhang преди 5 години
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      final1.2_mit_Verzoegerung.py

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final1.2_mit_Verzoegerung.py

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-import time
-import Adafruit_BBIO.GPIO as GPIO
-import Adafruit_BBIO.PWM as PWM
-
-class Keypad():
-    def __init__(self):
-        # CONSTANTS 
-        self.KEYPAD = [
-            ["1","2","3"],
-            ["4","5","6"],
-            ["7","8","9"],
-            ["*","0","#"]
-        ]
-
-        self.ROW         = ["P8_8", "P8_10", "P8_12", "P8_14"]
-        self.COLUMN      = ["P8_16", "P8_17", "P8_18"]
-        self.PASS = "1234"
-     
-    def getKey(self):
-        # Set all columns as output low
-        for i in range(len(self.COLUMN)):
-            GPIO.setup(self.COLUMN[i], GPIO.OUT)
-            GPIO.output(self.COLUMN[i], GPIO.LOW)
-         
-        # Set all rows as input
-        for i in range(len(self.ROW)):
-            GPIO.setup(self.ROW[i], GPIO.IN, pull_up_down=GPIO.PUD_UP)
-         
-        # Scan rows for pushed key/button
-        # A valid key press should set "rowVal"  between 0 and 3.
-        rowVal = -1
-        for i in range(len(self.ROW)):
-            tmpRead = GPIO.input(self.ROW[i])
-            if tmpRead == 0:
-                rowVal = i
-                 
-        if rowVal <0 or rowVal >3:
-            self.reset()
-            return
-         
-        # Convert columns to input
-        for j in range(len(self.COLUMN)):
-            GPIO.setup(self.COLUMN[j], GPIO.IN, pull_up_down=GPIO.PUD_UP)
-         
-        # Switch the i-th row found from scan to output
-        GPIO.setup(self.ROW[rowVal], GPIO.OUT)
-        GPIO.output(self.ROW[rowVal], GPIO.LOW)
- 
-        # Scan columns for still-pushed key/button
-        # A valid key press should set "colVal"  between 0 and 2.
-        colVal = -1
-        for j in range(len(self.COLUMN)):
-            tmpRead = GPIO.input(self.COLUMN[j])
-            if tmpRead == 0:
-                colVal=j
-                 
-        if colVal <0 or colVal >2:
-            self.reset()
-            return
- 
-        # Return the value of the key pressed
-        self.reset()
-        return self.KEYPAD[rowVal][colVal]
-         
-    def reset(self):
-        # Reinitialize all rows and columns
-        for i in range(len(self.ROW)):
-            GPIO.setup(self.ROW[i], GPIO.IN, pull_up_down=GPIO.PUD_UP) 
-        for j in range(len(self.COLUMN)):
-            GPIO.setup(self.COLUMN[j], GPIO.IN, pull_up_down=GPIO.PUD_UP)
-    
-    def verify_pass(self, pass_entered):
-        return pass_entered == self.PASS
-        
-
-class IR:
-    _name = ""
-    _pin = ""
-    _mode = GPIO.IN
-    _rot = None
-    _laut = None
-    _keypad = None
-    def __init__(self, name, pin, rot, laut, keypad):
-        self._name = name
-        self._pin = pin
-        self._rot = rot
-        self._laut = laut
-        self._keypad = keypad
-        GPIO.setup(self._pin, self._mode)
-        GPIO.add_event_detect(self._pin, GPIO.RISING, callback=self.cb_ir)
-    
-    def __del__(self):
-        print("IR {} deleted.".format(self._name))
-        GPIO.remove_event_detect(self._pin)
-
-    def cb_ir(self, pin):
-        print("cb_ir called. enter password to cancel alarm")
-        pass_entered = ""
-        digit = None
-        for i in range(self._laut._duration * self._rot._blink_freq):
-            self._laut.start()
-            self._rot.start()
-            time.sleep(1/self._rot._blink_freq)
-            self._rot.stop()
-            self._laut.stop()
-            digit = self._keypad.getKey()
-            if digit != None:
-                pass_entered = pass_entered + digit
-                print("{} digit(s) alreadt entered".format(len(pass_entered)))
-                digit = None
-                if len(pass_entered) == 4:
-                    if self._keypad.verify_pass(pass_entered):
-                        print("alarm cancelled")
-                        self._rot.stop()
-                        self._laut.stop()
-                        return
-                    else:
-                        print("wrong password")
-                        pass_entered = ""
-                
-
-class PIR:
-    _name = ""
-    _pin = ""
-    _mode = GPIO.IN
-    _rot = None
-    _laut = None
-    def __init__(self, name, pin, rot, laut):
-        self._name = name
-        self._pin = pin
-        self._rot = rot
-        self._laut = laut
-        GPIO.setup(self._pin, self._mode)
-        GPIO.add_event_detect(self._pin, GPIO.RISING, callback=self.cb_pir)
-    
-    def __del__(self):
-        print("PIR {} deleted.".format(self._name))
-        GPIO.remove_event_detect(self._pin)
-
-    def cb_pir(self, pin):
-        print("cb_pir called")
-        for i in range(self._laut._duration * self._rot._blink_freq):
-            self._laut.start()
-            self._rot.start()
-            time.sleep(1/self._rot._blink_freq)
-            self._rot.stop()
-            self._laut.stop()
-        
-class MAG:
-    _name = ""
-    _pin = ""
-    _mode = GPIO.IN
-    _window_closed = True
-    _rot = None
-    _laut = None
-    def __init__(self, name, pin, rot, laut):
-        self._name = name
-        self._pin = pin
-        self._rot = rot
-        self._laut = laut
-        GPIO.setup(self._pin, self._mode)
-        GPIO.add_event_detect(self._pin, GPIO.BOTH, callback=self.cb_mag)
-    
-    def __del__(self):
-        print("MAG {} deleted.".format(self._name))
-        GPIO.remove_event_detect(self._pin)
-
-    def cb_mag(self, pin):
-        if self._window_closed:
-            print("Fenster geoeffnet...")
-            self._window_closed = False
-            for i in range(self._laut._duration * self._rot._blink_freq):
-                self._laut.start()
-                self._rot.start()
-                time.sleep(1/self._rot._blink_freq)
-                self._rot.stop()
-                self._laut.stop()
-        else:
-            print("Fenster zu...")
-            self._window_closed = True
-
-class ROT:
-    _name = ""
-    _pin = ""
-    _mode = GPIO.OUT
-    _blink_freq = 2
-    def __init__(self, name, pin, blink_freq=2):
-        self._name = name
-        self._pin = pin
-        self._blink_freq = blink_freq
-        GPIO.setup(self._pin, self._mode)
-    
-    def __del__(self):
-        print("ROT {} deleted.".format(self._name))
-
-    def start(self):
-        GPIO.output(self._pin, GPIO.HIGH)
-    
-    def stop(self):
-        GPIO.output(self._pin, GPIO.LOW)
-
-class LAUT:
-    _name = ""
-    _pin = ""
-    _mode = GPIO.OUT
-    _duration = 60 # in second
-    _pwm_perc = 50 # in percentage
-    _pwm_freq = 10000 # in hz
-    def __init__(self, name, pin, duration=60, pwm_perc=50, pwm_freq=10000):
-        self._name = name
-        self._pin = pin
-        self._duration = duration
-        self._pwm_perc = pwm_perc
-        self._pwn_freq = pwm_freq
-        GPIO.setup(self._pin, self._mode)
-    
-    def __del__(self):
-        print("PWM {} deleted.".format(self._name))
-
-    def start(self):
-        PWM.start(self._pin, self._pwm_perc, self._pwm_freq)
-    
-    def stop(self):
-        PWM.stop(self._pin)
-
-if __name__ == "__main__":
-    try:
-        print("Program start. Initializing with alarm config...")
-        keypad = Keypad()
-        rot = ROT("outPinROT", "P9_27")
-        laut = LAUT("myPWMLAUT", "P8_13", duration=4)
-        ir = IR("inPinIR", "P9_12", rot, laut, keypad)
-        pir = PIR("inPinPIR", "P9_41", rot, laut)
-        mag = MAG("inPinMAG", "P8_7", rot, laut)
-
-        print("Initialization succeeded. Start in 2 seconds.")
-        time.sleep(2)
-        while True:
-            # print("...")
-            time.sleep(2)
-    except Exception as e:
-        print("Exception captured. Clean up and quit...")
-        GPIO.cleanup()
-        PWM.cleanup()
-        print(e)