Esempio n. 1
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class DHT22(ComponentSensor):
    def __init__(self,
                 pin,
                 precision_temp=2,
                 precision_humid=1,
                 offset_temp=0,
                 offset_humid=0,
                 interval_publish=None,
                 interval_reading=None,
                 mqtt_topic=None,
                 friendly_name_temp=None,
                 friendly_name_humid=None,
                 discover=True,
                 expose_intervals=False,
                 intervals_topic=None):
        # This makes it possible to use multiple instances of MySensor and have unique identifier
        global _unit_index
        _unit_index += 1
        super().__init__(COMPONENT_NAME, __version__, _unit_index, discover,
                         interval_publish, interval_reading, mqtt_topic, _log,
                         expose_intervals, intervals_topic)
        self._addSensorType(SENSOR_TEMPERATURE, precision_temp, offset_temp,
                            _VAL_T_TEMPERATURE, "°C", friendly_name_temp)
        self._addSensorType(SENSOR_HUMIDITY, precision_humid, offset_humid,
                            _VAL_T_HUMIDITY, "%", friendly_name_humid)
        ##############################
        # create sensor object
        self.sensor = Sensor(
            Pin(pin))  # add neccessary constructor arguments here
        ##############################
        gc.collect()

    async def _read(self):
        try:
            self.sensor.measure()
            await asyncio.sleep(1)
            self.sensor.measure()
        except Exception as e:
            await _log.asyncLog("error",
                                "DHT22 is not working,",
                                e,
                                timeout=10)
            return None, None
        await asyncio.sleep_ms(
            100
        )  # give other tasks some time as measure() is slow and blocking
        try:
            temp = self.sensor.temperature()
            humid = self.sensor.humidity()
        except Exception as e:
            await _log.asyncLog("error", "Error reading DHT22:", e, timeout=10)
        else:
            await self._setValue(SENSOR_TEMPERATURE, temp)
            await self._setValue(SENSOR_HUMIDITY, humid)
Esempio n. 2
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class DHT22:
    def __init__(
            self,
            pin,
            precision_temp=2,
            precision_humid=1,  # extend or shrink according to your sensor
            offset_temp=0,
            offset_humid=0,  # also here
            interval=None,
            mqtt_topic=None):
        interval = interval or config.INTERVAL_SEND_SENSOR
        self.topic = mqtt_topic or mqtt.getDeviceTopic(component_name)

        ##############################
        # adapt to your sensor by extending/removing unneeded values like in the constructor arguments
        self._prec_temp = int(precision_temp)
        self._prec_humid = int(precision_humid)
        ###
        self._offs_temp = float(offset_temp)
        self._offs_humid = float(offset_humid)
        ##############################
        # create sensor object
        if type(pin) == str:
            pin = config.pins[pin]
        self.sensor = Sensor(
            machine.Pin(pin))  # add neccessary constructor arguments here
        ##############################
        # choose a background loop that periodically reads the values and publishes it
        # (function is created below)
        background_loop = self.tempHumid
        ##############################
        gc.collect()
        asyncio.get_event_loop().create_task(
            self._loop(background_loop, interval))

    async def _loop(self, gen, interval):
        while True:
            await gen()
            await asyncio.sleep(interval)

    async def _dht_read(self):
        try:
            self.sensor.measure()
            await asyncio.sleep(1)
            self.sensor.measure()
        except Exception as e:
            log.error("DHT22 is not working, {!s}".format(e))
            return None, None
        await asyncio.sleep_ms(
            100
        )  # give other tasks some time as measure() is slow and blocking
        try:
            temp = self.sensor.temperature()
            humid = self.sensor.humidity()
        except Exception as e:
            log.error("Error reading DHT22: {!s}".format(e))
            return None, None
        return temp, humid

    async def _read(self, prec, offs, get_value_number=0, publish=True):
        if get_value_number > 2:
            log.error("DHT22 get_value_number can't be >2")
            return None
        try:
            values = await self._dht_read()
        except Exception as e:
            log.error("Error reading sensor {!s}: {!s}".format(
                component_name, e))
            return None
        if values[0] is not None and values[1] is not None:
            for i in range(0, len(values)):
                try:
                    values[i] = round(values[i], prec)
                except Exception as e:
                    log.error("DHT22 can't round value: {!s}, {!s}".format(
                        values[i], e))
                    return None if get_value_number != 0 else (None, None)
                values[i] += offs
        else:
            log.warn("Sensor {!s} got no value".format(component_name))
            return None if get_value_number != 0 else (None, None)
        if publish:
            if get_value_number == 0:
                await mqtt.publish(
                    self.topic, {
                        "temperature":
                        ("{0:." + str(self._prec_temp) + "f}").format(
                            values[0]),
                        "humidity":
                        ("{0:." + str(self._prec_humid) + "f}").format(
                            values[1])
                    })
                # formating prevents values like 51.500000000001 on esp32_lobo
            else:
                await mqtt.publish(self.topic,
                                   ("{0:." + str(prec) + "f}").format(
                                       values[get_value_number]))
        return {
            "temperature": values[0],
            "humiditiy": values[1]
        } if get_value_number == 0 else values[get_value_number]

    ##############################
    # remove or add functions below depending on the values of your sensor

    async def temperature(self, publish=True):
        return await self._read(self._prec_temp, self._offs_temp, 1, publish)

    async def humidity(self, publish=True):
        return await self._read(self._prec_humid, self._offs_humid, 2, publish)

    async def tempHumid(self, publish=True):
        return await self._read(self._prec_humid, self._offs_humid, 0, publish)
Esempio n. 3
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 def get_humidity(self):
     self._check_refresh(500)
     return DHT22.humidity(self)
Esempio n. 4
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 def get_data(self):
     self._check_refresh(500)
     return (DHT22.temperature(self) * 1.8 + 32, DHT22.humidity(self))
Esempio n. 5
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class DHT22(Component):
    def __init__(
            self,
            pin,
            precision_temp=2,
            precision_humid=1,  # extend or shrink according to your sensor
            offset_temp=0,
            offset_humid=0,  # also here
            interval=None,
            mqtt_topic=None,
            friendly_name=None):
        super().__init__()
        self._interval = interval or config.INTERVAL_SEND_SENSOR
        self._topic = mqtt_topic or _mqtt.getDeviceTopic(_component_name)

        ##############################
        # adapt to your sensor by extending/removing unneeded values like in the constructor arguments
        self._prec_temp = int(precision_temp)
        self._prec_humid = int(precision_humid)
        ###
        self._offs_temp = float(offset_temp)
        self._offs_humid = float(offset_humid)
        ##############################
        # create sensor object
        self.sensor = Sensor(
            Pin(pin))  # add neccessary constructor arguments here
        ##############################
        global _count
        self._count = _count
        _count += 1
        self._frn = friendly_name
        gc.collect()

    async def _init(self):
        await super()._init()
        gen = self.tempHumid
        interval = self._interval
        while True:
            await gen()
            await asyncio.sleep(interval)

    async def _dht_read(self):
        try:
            self.sensor.measure()
            await asyncio.sleep(1)
            self.sensor.measure()
        except Exception as e:
            await _log.asyncLog("error",
                                "DHT22 is not working, {!s}".format(e))
            return None, None
        await asyncio.sleep_ms(
            100
        )  # give other tasks some time as measure() is slow and blocking
        try:
            temp = self.sensor.temperature()
            humid = self.sensor.humidity()
        except Exception as e:
            await _log.asyncLog("error", "Error reading DHT22: {!s}".format(e))
            return None, None
        return temp, humid

    async def _read(self, prec, offs, get_value_number=0, publish=True):
        if get_value_number > 2:
            _log.error("DHT22 get_value_number can't be >2")
            return None
        try:
            values = await self._dht_read()
        except Exception as e:
            await _log.asyncLog(
                "error",
                "Error reading sensor {!s}: {!s}".format(_component_name, e))
            return None
        if values[0] is not None and values[1] is not None:
            for i in range(0, len(values)):
                try:
                    values[i] = round(values[i], prec)
                except Exception as e:
                    await _log.asyncLog(
                        "error", "DHT22 can't round value: {!s}, {!s}".format(
                            values[i], e))
                    return None if get_value_number != 0 else (None, None)
                values[i] += offs
        else:
            await _log.asyncLog(
                "warn", "Sensor {!s} got no value".format(_component_name))
            return None if get_value_number != 0 else (None, None)
        if publish:
            if get_value_number == 0:
                await _mqtt.publish(
                    self._topic, {
                        "temperature":
                        ("{0:." + str(self._prec_temp) + "f}").format(
                            values[0]),
                        "humidity":
                        ("{0:." + str(self._prec_humid) + "f}").format(
                            values[1])
                    })
                # formating prevents values like 51.500000000001 on esp32_lobo
            else:
                await _mqtt.publish(self._topic,
                                    ("{0:." + str(prec) + "f}").format(
                                        values[get_value_number]))
        return {
            "temperature": values[0],
            "humiditiy": values[1]
        } if get_value_number == 0 else values[get_value_number]

    ##############################
    # remove or add functions below depending on the values of your sensor

    async def temperature(self, publish=True):
        return await self._read(self._prec_temp, self._offs_temp, 1, publish)

    async def humidity(self, publish=True):
        return await self._read(self._prec_humid, self._offs_humid, 2, publish)

    async def tempHumid(self, publish=True):
        return await self._read(self._prec_humid, self._offs_humid, 0, publish)

    ##############################

    async def _discovery(self):
        sens = DISCOVERY_SENSOR.format(
            "temperature",  # device_class
            "°C",  # unit_of_measurement
            "{{ value|float }}")  # value_template
        name = "{!s}{!s}".format(_component_name, self._count)
        await self._publishDiscovery(_component_type, self._topic, name, sens,
                                     self._frn or "Temperature")