def send_notice(event_name, key, text): url = "https://maker.ifttt.com/trigger/" + 'notice_phone' + "/with/key/" + 'cHfwbFfxP4F2Bm0EZ3oFJFgouwZ3aRDb8Ct5ta1SbYa' + "" payload = "{\n \"value1\": \"" + text + "\"\n}" headers = { 'Content-Type': "application/json", 'User-Agent': "PostmanRuntime/7.15.0", 'Accept': "*/*", 'Cache-Control': "no-cache", 'Postman-Token': "a9477d0f-08ee-4960-b6f8-9fd85dc0d5cc,d376ec80-54e1-450a-8215-952ea91b01dd", 'Host': "maker.ifttt.com", 'accept-encoding': "gzip, deflate", 'content-length': "63", 'Connection': "keep-alive", 'cache-control': "no-cache" } response = requests.request("POST", url, data=payload.encode('utf-8'), headers=headers) if response.text == 'Congratulations! You\'ve fired the notice_phone event': nl = Nanoleaf('192.168.0.108', 'GqOO9LTcPmhcjO26mjbtvcSaUwU3dd3v') nl.identify()
class TestApp(App): def connect_nanoleaf(self, *args): try: self.nl = Nanoleaf('192.168.0.108') auth_token = 'authentication token' #Real token was removed by authors for protecting security self.nl = Nanoleaf('192.168.0.108', auth_token) except Exception: content = GridLayout(cols=1) content.add_widget(Label(text='No valid nanoleaf device found')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def power_on(self, *args): try: self.nl.power_on() except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def power_off(self, *args): try: self.nl.power_off() except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def turn_up(self, *args): try: if self.nl.get_power() == True: self.nl.increment_brightness(10) except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def turn_down(self, *args): try: if self.nl.get_power() == True: if self.nl.get_brightness() > 0: self.nl.set_brightness(self.nl.get_brightness() - 10) else: self.nl.set_brightness(0) except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def set_color(self, *args): try: if self.nl.get_power() == True: content = GridLayout(cols=2) content_admit = Button(text='OK') content_cancel = Button(text='Cancel') self.content_input = TextInput(multiline=False) content.add_widget(Label(text='Please input color in R,G,B:')) content.add_widget(self.content_input) content.add_widget(content_admit) content.add_widget(content_cancel) popup = Popup(title='Message', content=content, auto_dismiss=False) content_cancel.bind(on_release=popup.dismiss) content_admit.bind(on_release=self.pressed) popup.open() except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def pressed(self, instance): color = self.content_input.text try: if color == 'RED': self.nl.set_color(RED) elif color == 'ORANGE': self.nl.set_color(ORANGE) elif color == 'YELLOW': self.nl.set_color(YELLOW) elif color == 'BLUE': self.nl.set_color(BLUE) elif color == 'GREEN': self.nl.set_color(GREEN) elif color == 'WHITE': self.nl.set_color(WHITE) elif color == 'LIGHT_BLUE': self.nl.set_color(LIGHT_BLUE) elif color == 'PINK': self.nl.set_color(PINK) elif color == 'PURPLE': self.nl.set_color(PURPLE) elif type(int(color.split(',')[0])) == int and type(int(color.split(',')[1])) == int and type( int(color.split(',')[2])) == int and color.count(',') == 2 and \ (0 <= int(color.split(',')[0]) <= 255) == True and ( 0 <= int(color.split(',')[1]) <= 255) == True and (0 <= int(color.split(',')[2]) <= 255) == True: self.nl.set_color( (int(color.split(',')[0]), int(color.split(',')[1]), int(color.split(',')[2]))) except ValueError: content = GridLayout(cols=1) content.add_widget(Label(text='Please input valid numbers')) content_cancel = Button(text='OK') content.add_widget(content_cancel) popup = Popup(title='Warning', content=content, auto_dismiss=False) content_cancel.bind(on_release=popup.dismiss) popup.open() except IndexError: content = GridLayout(cols=1) content.add_widget(Label(text='Please input valid numbers')) content_cancel = Button(text='OK') content.add_widget(content_cancel) popup = Popup(title='Warning', content=content, auto_dismiss=False) content_cancel.bind(on_release=popup.dismiss) popup.open() def flash(self, *args): try: self.nl.identify() except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def random_color(self, *args): try: if self.nl.get_power() == True: R = random.randint(0, 255) G = random.randint(0, 255) B = random.randint(0, 255) self.nl.set_color((R, G, B)) except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def on_value2(self, brightness): try: self.brightnessValue = "%d" % brightness self.nl.set_brightness(int(self.brightnessValue)) except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def on_value1(self, hue): try: self.hueValue = "%d" % hue self.nl.set_hue(int(self.hueValue)) except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def weatherControl(self): # self.state=active try: if self.aV1 == True and self.nl.get_power() == True: url = 'http://api.openweathermap.org/data/2.5/weather?id=5946768&appid=authentication token' #Real token was removed by authors for protecting security json_data = requests.get(url).json() condition = json_data['weather'][0]['main'] '''content=GridLayout(cols=1) content_admit=Button(text='OK') content.add_widget(Label(text='Weather is: '+condition)) content.add_widget(content_admit) popup = Popup(title='Message',content=content,auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open()''' if (condition == "Clear"): self.sunny() elif (condition == "Clouds"): self.cloudy() elif (condition == "Snow"): self.snowy() elif (condition == "Rain"): self.rainy() else: pass t = Timer(5, self.weatherControl) t.start() else: t = Timer(5, self.weatherControl) t.cancel() except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def sunControl(self): try: if self.aV3 == True: t1 = datetime.datetime.now() if t1.hour >= 8 and t1.hour <= 16: self.nl.power_off() elif t1.hour == 7: if t1.minute >= 40: self.nl.power_off() else: self.nl.power_on() elif t1.hour == 17: if t1.minute <= 45: self.nl.power_off() else: self.nl.power_on() else: self.nl.power_on() t = Timer(5, self.sunControl) t.start() else: # self.nl.power_off() t = Timer(5, self.sunControl) t.cancel() except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def activeValue1(self, active): self.aV1 = active self.weatherControl() def activeValue2(self, active): self.aV2 = active self.tempControl() def activeValue3(self, active): self.aV3 = active self.sunControl() def activeValue4(self, active): self.aV4 = active self.sunLab() def activeValue5(self, active): self.aV5 = active self.sunBed() def activeValue6(self, active): self.aV6 = active self.sunLiving() def activeValue7(self, active): self.aV7 = active self.sunWhite() def activeValue8(self, active): self.aV8 = active self.weatherLab() def activeValue9(self, active): self.aV9 = active self.weatherBed() def activeValue10(self, active): self.aV10 = active self.weatherLiving() def activeValue11(self, active): self.aV11 = active self.weatherWhite() def activeValue12(self, active): self.aV12 = active self.geofencinglab() def activeValue13(self, active): self.aV13 = active self.geofencingBed() def activeValue14(self, active): self.aV14 = active self.geofencingLiving() def activeValue15(self, active): self.aV15 = active self.geofencingWhite() def activeValue16(self, active): self.aV16 = active self.musiclab() def activeValue17(self, active): self.aV17 = active self.labscreen() def activeValue18(self, active): self.aV18 = active self.musicbed() def activeValue19(self, active): self.aV19 = active self.bedscreen() def activeValue20(self, active): self.aV20 = active self.musicliving() def activeValue22(self, active): self.aV22 = active self.musicwhite() def activeValue23(self, active): self.aV23 = active self.on_checkbox_active() def musicbed(self): if self.aV18 == True: import lightningstrike def musiclab(self): if self.aV16 == True: import lightningstrike def labscreen(self): if self.aV17 == True: import screen def bedscreen(self): if self.aV19 == True: import screen def musicliving(self): if self.aV20 == True: import lightningstrike def musicwhite(self): if self.aV22 == True: import lightningstrike def geofencinglab(self): if self.aV12 == True: from geofencing import src import app def geofencingBed(self): if self.aV13 == True: from geofencing import src import app def geofencingLiving(self): if self.aV14 == True: from geofencing import src import app def geofencingWhite(self): if self.aV15 == True: from geofencing import src import app def sunLab(self): if self.aV4 == True: t1 = datetime.datetime.now() if t1.hour >= 8 and t1.hour <= 16: self.b.set_light(2, 'on', False) elif t1.hour == 7: if t1.minute >= 40: self.b.set_light(2, 'on', False) else: self.b.set_light(2, 'on', True) elif t1.hour == 17: if t1.minute <= 45: self.b.set_light(2, 'on', False) else: self.b.set_light(2, 'on', True) else: self.b.set_light(2, 'on', True) t = Timer(5, self.sunLab) t.start() else: t = Timer(5, self.sunLab) t.cancel() def weatherLab(self): if self.aV8 == True: import weather t = Timer(5, self.weatherLab) t.start() else: from phue import Bridge b = Bridge('192.168.0.13') b.set_light(2, 'on', False) t = Timer(5, self.weatherLab) t.cancel() def weatherBed(self): if self.aV9 == True: import weather t = Timer(5, self.weatherBed) t.start() else: from phue import Bridge b = Bridge('192.168.0.13') b.set_light(1, 'on', False) t = Timer(5, self.weatherLab) t.cancel() t = Timer(5, self.weatherBed) t.cancel() def weatherLiving(self): if self.aV10 == True: import weather t = Timer(5, self.weatherLiving) t.start() else: t = Timer(5, self.weatherLiving) t.cancel() def weatherWhite(self): if self.aV11 == True: import weather t = Timer(5, self.weatherWhite) t.start() else: t = Timer(5, self.weatherWhite) t.cancel() def sunBed(self): if self.aV5 == True: t1 = datetime.datetime.now() if t1.hour >= 8 and t1.hour <= 16: self.b.set_light(1, 'on', False) elif t1.hour == 7: if t1.minute >= 40: self.b.set_light(1, 'on', False) else: self.b.set_light(1, 'on', True) elif t1.hour == 17: if t1.minute <= 45: self.b.set_light(1, 'on', False) else: self.b.set_light(1, 'on', True) else: self.b.set_light(1, 'on', True) t = Timer(5, self.sunBed) t.start() else: t = Timer(5, self.sunBed) t.cancel() def sunLiving(self): if self.aV6 == True: t1 = datetime.datetime.now() if t1.hour >= 8 and t1.hour <= 16: self.b.set_light(3, 'on', False) elif t1.hour == 7: if t1.minute >= 40: self.b.set_light(3, 'on', False) else: self.b.set_light(3, 'on', True) elif t1.hour == 17: if t1.minute <= 45: self.b.set_light(3, 'on', False) else: self.b.set_light(3, 'on', True) else: self.b.set_light(3, 'on', True) t = Timer(5, self.sunLiving) t.start() else: t = Timer(5, self.sunLiving) t.cancel() def sunWhite(self): if self.aV7 == True: t1 = datetime.datetime.now() if t1.hour >= 8 and t1.hour <= 16: self.b.set_light(4, 'on', False) elif t1.hour == 7: if t1.minute >= 40: self.b.set_light(4, 'on', False) else: self.b.set_light(4, 'on', True) elif t1.hour == 17: if t1.minute <= 45: self.b.set_light(4, 'on', False) else: self.b.set_light(4, 'on', True) else: self.b.set_light(4, 'on', True) t = Timer(5, self.sunWhite) t.start() else: t = Timer(5, self.sunWhite) t.cancel() def snowy(self): self.nl.set_color(WHITE) return def rainy(self): self.nl.set_color((30, 144, 255)) return def sunny(self): self.nl.set_color((ORANGE)) return def cloudy(self): self.nl.set_color((135, 206, 235)) return def tempControl(self): try: if self.aV2 == True and self.nl.get_power() == True: url = 'http://api.openweathermap.org/data/2.5/weather?id=5946768&appid=authentication token' #Real token was removed by authors for protecting security json_data = requests.get(url).json() temp = json_data['main']['temp'] cel = float(temp) - 273.15 '''content=GridLayout(cols=1) content_admit=Button(text='OK') content.add_widget(Label(text='Temperature is: '+str(cel)+'°C')) content.add_widget(content_admit) popup = Popup(title='Message',content=content,auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open()''' if (temp >= 303.15): self.extreme() elif (temp >= 293.15 and temp < 303.15): self.hot() elif (temp >= 283.15 and temp < 293.15): self.medium() elif (temp >= 273.15 and temp < 283.15): self.chilly() elif (temp >= 263.15 and temp < 273.15): self.cold() elif (temp >= 253.15 and temp < 263.15): self.freezing() else: pass t = Timer(5, self.tempControl) t.start() else: t = Timer(5, self.tempControl) t.cancel() except AttributeError: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to nanoleaf at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def extreme(self): self.nl.set_color(RED) return def hot(self): self.nl.set_color(ORANGE) return def medium(self): self.nl.set_color(YELLOW) return def chilly(self): self.nl.set_color(GREEN) return def cold(self): self.nl.set_color((0, 255, 255)) return def freezing(self): self.nl.set_color(BLUE) return def on_value3(self, brightness): self.labValue = "%d" % brightness self.b.set_light(2, 'bri', int(self.labValue)) def on_value4(self, brightness): self.bedValue = "%d" % brightness self.b.set_light(1, 'bri', int(self.bedValue)) def on_value5(self, brightness): self.livingValue = "%d" % brightness self.b.set_light(3, 'bri', int(self.livingValue)) def on_value6(self, brightness): self.whiteValue = "%d" % brightness self.b.set_light(4, 'bri', int(self.whiteValue)) def lab_on(self, *args): try: self.b.set_light(2, 'on', True) except phue.PhueRequestTimeout: content = GridLayout(cols=1) content.add_widget( Label(text='Please connect to philips at first')) content_admit = Button(text='OK') content.add_widget(content_admit) popup = Popup(title='Message', content=content, auto_dismiss=False) content_admit.bind(on_release=popup.dismiss) popup.open() def lab_off(self, *args): self.b.set_light(2, 'on', False) def lab_up(self, *args): brightness = self.b.get_light(2, 'bri') if self.b.get_light(2, 'on') == True and brightness < 238: self.b.set_light(2, 'bri', brightness + 17) def lab_down(self, *args): brightness = self.b.get_light(2, 'bri') if self.b.get_light(2, 'on') == True and brightness > 17: self.b.set_light(2, 'bri', brightness - 17) def bed_on(self, *args): self.b.set_light(1, 'on', True) def bed_off(self, *args): self.b.set_light(1, 'on', False) def bed_up(self, *args): brightness = self.b.get_light(1, 'bri') if self.b.get_light(1, 'on') == True and brightness < 238: self.b.set_light(1, 'bri', brightness + 17) def bed_down(self, *args): brightness = self.b.get_light(1, 'bri') if self.b.get_light(1, 'on') == True and brightness > 17: self.b.set_light(1, 'bri', brightness - 17) def living_on(self, *args): self.b.set_light(3, 'on', True) def living_off(self, *args): self.b.set_light(3, 'on', False) def living_up(self, *args): brightness = self.b.get_light(1, 'bri') if self.b.get_light(3, 'on') == True and brightness < 238: self.b.set_light(3, 'bri', brightness + 17) def living_down(self, *args): brightness = self.b.get_light(3, 'bri') if self.b.get_light(3, 'on') == True and brightness > 17: self.b.set_light(3, 'bri', brightness - 17) def white_on(self, *args): self.b.set_light(4, 'on', True) def white_off(self, *args): self.b.set_light(4, 'on', False) def white_up(self, *args): brightness = self.b.get_light(4, 'bri') if self.b.get_light(4, 'on') == True and brightness < 238: self.b.set_light(4, 'bri', brightness + 17) def white_down(self, *args): brightness = self.b.get_light(4, 'bri') if self.b.get_light(4, 'on') == True and brightness > 17: self.b.set_light(4, 'bri', brightness - 17) def connect_hue(self, *args): self.b = Bridge('192.168.0.13') def callback1(self, *args): self.disabled = False def build(self): return Builder.load_string(kv)