def time_in_range(start, end): current_time = datetime.datetime.today().time() database = RedisDatabase() # current_time = parser.parse(database.get("current_time")).time() # print current_time if start <= end: return start <= current_time <= end else: return start <= current_time or current_time <= end
def __init__(self, trigger, echo, number_of_sample=100): self.database = RedisDatabase() self.config = configparser.ConfigParser() self.config.read("config.ini") self.number_of_sample = number_of_sample self.GPIO_ECHO = echo self.GPIO_TRIGGER = trigger GPIO.setmode(GPIO.BCM) GPIO.setup(self.GPIO_TRIGGER, GPIO.OUT) # Trigger GPIO.setup(self.GPIO_ECHO, GPIO.IN) # Echo GPIO.output(self.GPIO_TRIGGER, False)
def get(self): redis = RedisDatabase() type_data = self.get_argument("type", "None") if type_data in "real": self.write(demjson.encode({"water_level": redis.get_water_level()}))
def __init__(self): self.redis_database = RedisDatabase() self.mongo_client = MongoClient() self.mongo_database = self.mongo_client["smart_aqua"] self.stat = self.mongo_database.statistic
from Class.RedisDatabase import RedisDatabase from lib_tft24T import TFT24T GPIO.setmode(GPIO.BCM) GPIO.setwarnings(False) DC = 22 RST = 18 LED = 23 TFT = TFT24T(spidev.SpiDev(), GPIO, landscape=True) TFT.initLCD(DC, RST, LED, ce=1) draw = TFT.draw() TFT.clear((255, 255, 255)) database = RedisDatabase() database.test_connect() # # Image of calculator !!! font = ImageFont.truetype('THSarabunNew.ttf', 22) i = 1 while True: TFT.load_wallpaper("bg.jpg") text = u'ระดับน้ำ : 2 ' text1 = u'อุณหภูมิ :' draw.text((10, 80), text1, fill=(32, 32, 32), font=font) draw.text((10, 100), text, fill=(32, 32, 32), font=font) draw.text((10, 120), str(i), fill=(32, 32, 32), font=font) draw.textwrapped((10, 140), str(i), 38, 10, font, fill=(32, 32, 32)) TFT.display() i += 1