Exemplo n.º 1
0
def init_mashing(batch):

    # (Re)set defaults for batch
    set_batch_defaults(batch)
    set_variable('active_mashingprocess_batch_id', str(batch.id))

    # Initialize Arduino with Nanpy
    if not settings.ARDUINO_SIMULATION:
        sensor = DallasTemperature(ARDUINO_TEMPERATURE_PIN)
        addr = sensor.getAddress(ARDUINO_TEMPERATURE_PIN)
        Arduino.pinMode(ARDUINO_HEAT_PIN, Arduino.OUTPUT)
        Arduino.pinMode(ARDUINO_COOL_PIN, Arduino.OUTPUT)
        Arduino.pinMode(ARDUINO_STATUS_PIN, Arduino.OUTPUT)
        Arduino.digitalWrite(ARDUINO_HEAT_PIN, Arduino.LOW)
        Arduino.digitalWrite(ARDUINO_COOL_PIN, Arduino.LOW)
        Arduino.digitalWrite(ARDUINO_STATUS_PIN, Arduino.HIGH)
    else:
        # Set initial dummy temperature
        batch.temperature = 20  # Testing purpose only
        batch.save()
        batch = Batch.objects.get(id=batch.id)

    # Run Mashing proces
    while get_variable('active_mashingprocess_batch_id', 'None') == str(batch.id):
        # Measure data
        measured_data = {}
        if settings.ARDUINO_SIMULATION:
            measured_data['temp'] = get_dummy_temperature(batch)
        else:
            sensor.requestTemperatures()
            measured_data['temp'] = sensor.getTempC(addr)

        # Define actions depending on measured data
        batch = process_measured_data(batch.id, measured_data)

        # Send updates to arduino
        if not settings.ARDUINO_SIMULATION:
            send_updates_to_arduino(batch)

        # Send to logging department
        handle_logging(batch)

        # Delay
        sleep(DELAY_BETWEEN_MEASUREMENTS)

    Arduino.digitalWrite(ARDUINO_STATUS_PIN, Arduino.LOW)
    Arduino.digitalWrite(ARDUINO_COOL_PIN, Arduino.LOW)
    Arduino.digitalWrite(ARDUINO_HEAT_PIN, Arduino.LOW)

    return 'Mashing proces ended'
Exemplo n.º 2
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    def init_sensor(self):
        self.sensors = DallasTemperature(self.pin, connection=self.connection)
        self.sensor_bus = self.sensors.getDeviceCount()
        # read data using pin specified pin
        print("There are", self.sensor_bus, "devices connected on pin ",
              self.sensors.pin)
        self.addresses = []

        for i in range(self.sensor_bus):
            self.addresses.append(self.sensors.getAddress(i))

        print("There addresses", self.addresses)
        #I guess this is something with bit rates? TODO: Look this up
        self.sensors.setResolution(10)
Exemplo n.º 3
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class TemperatureSensor(Service):

    def on_init(self):
        self.communicator.listen()
        print 'init'
        print self.params['tp1']
        self.sensors = DallasTemperature(self.params['tp1'])

    def on_shutdown(self):
        pass

    def on_process(self):
        self.sensors.requestTemperatures(0)
        addr = self.sensors.getAddress(0)
        temp = self.sensors.getTempC(addr)
        print temp
        self.communicator.send(str(temp))
        time.sleep(5)
Exemplo n.º 4
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class TemperatureSensor(Sensor):
    def __init__(self,
                 pin,
                 name='TemperatureHumiditySensor',
                 key=None,
                 connection=default_connection,
                 redis_conn=None):
        super().__init__(pin,
                         name=name,
                         key=key,
                         connection=connection,
                         redis_conn=redis_conn)
        return

    def init_sensor(self):
        self.sensors = DallasTemperature(self.pin, connection=self.connection)
        self.sensor_bus = self.sensors.getDeviceCount()
        # read data using pin specified pin
        Logger.log(LOG_LEVEL["debug"], "There are", self.sensor_bus,
                   "devices connected on pin ", self.sensors.pin)
        self.addresses = []

        for i in range(self.sensor_bus):
            self.addresses.append(self.sensors.getAddress(i))

        Logger.log(LOG_LEVEL["debug"], "Their addresses", self.addresses)
        #I guess this is something with bit rates? TODO: Look this up
        self.sensors.setResolution(10)

    #sensor = id of sensor you want in addresses[]
    def read(self):
        #temp = self.sensors.getTempF(sensor)
        #self.r.set('temp_'+str(sensor), temp)
        #return temp
        return self.readAll()

    def readAll(self):
        self.sensors.requestTemperatures()
        temps = {}
        for i in range(self.sensor_bus):
            temp = self.sensors.getTempC(i)
            temps['temp_' + str(i)] = temp
            #self.r.set(self.key+'_'+str(i), temp)
            #print("Device %d (%s) " % (i, self.addresses[i]))
            #print("Let's convert it in Fahrenheit degrees: %0.2f" % DallasTemperature.toFahrenheit(temp))
        self.r.set(self.key, temps)
        return temps
Exemplo n.º 5
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#!/usr/bin/env python

# Author: Andrea Stagi <*****@*****.**>
# Description: just a test for DallasTemperature
# Dependencies: None

from nanpy import DallasTemperature

sensors = DallasTemperature(5)

while True:
    sensors.requestTemperatures()
    temp = sensors.getTempCByIndex(0)
    print "The temperature, in Celsius degrees is %0.2f" % temp
    print "Let's convert it in Fahrenheit degrees: %0.2f" % DallasTemperature.toFahrenheit(
        temp)
from nanpy import DallasTemperature, SerialManager

device = '/dev/cu.usbmodem1411'
connection = SerialManager(device=device)
connection.open()

sensors = DallasTemperature(connection=connection, pin=2)
n_sensors = sensors.getDeviceCount()

print("There are %d devices connected on pin %d" % (n_sensors, sensors.pin))
addresses = []

for i in range(n_sensors):
    addresses.append(sensors.getAddress(i))

sensors.setResolution(12)

while True:
    sensors.requestTemperatures()
    for i in range(n_sensors):
        temp = sensors.getTempC(i)
        print("Device %d (%s) temperature, in Celsius degrees is %0.2f" % (i, addresses[i], temp))
        print("Let's convert it in Fahrenheit degrees: %0.2f" % DallasTemperature.toFahrenheit(temp))
    print("\n")
Exemplo n.º 7
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#!/usr/bin/env python

# Author: Andrea Stagi <*****@*****.**>
# Description: just a test for DallasTemperature
# Dependencies: None

from nanpy import DallasTemperature

sensors = DallasTemperature(5)

while True:
    sensors.requestTemperatures()
    temp = sensors.getTempCByIndex(0)
    print "The temperature, in Celsius degrees is %0.2f" % temp
    print "Let's convert it in Fahrenheit degrees: %0.2f" % DallasTemperature.toFahrenheit(temp)

Exemplo n.º 8
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#!/usr/bin/env python

# Author: Andrea Stagi <*****@*****.**>
# Description: just a test for DallasTemperature
# Dependencies: None

from nanpy import DallasTemperature

sensors = DallasTemperature(5)

while True:
    print("There are %d devices connected on pin %d" %
          (sensors.getDeviceCount(), sensors.pin))
    sensors.requestTemperatures(0)
    addr = sensors.getAddress(0)
    temp = sensors.getTempC(addr)
    print("The temperature, in Celsius degrees is %0.2f" % temp)
    print("Let's convert it in Fahrenheit degrees: %0.2f" %
          DallasTemperature.toFahrenheit(temp))
Exemplo n.º 9
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# Load settings
device = settings.get('Arduino', 'SERIAL_PORT')
pin_sound = settings.getint('Arduino', 'PIN_SOUND')
pin_temp = settings.getint('Arduino', 'PIN_TEMPERATURE')
app_id = settings.get('Instapush', 'INSTAPUSH_APP_ID')
app_secret = settings.get('Instapush', 'INSTAPUSH_APP_SECRET')
event_id = settings.get('Instapush', 'INSTAPUSH_EVENT_NAME')
threshold = settings.getfloat('Fridge', 'THRESHOLD')
notify_every_x_seconds = settings.getfloat('Fridge', 'NOTIFY_EVERY_X_SECONDS')
write_log_every_x_measurements = 50

# Startup arduino connection
connection = SerialManager(device=device)
connection.open()
arduino = ArduinoApi(connection=connection)
temperature_sensors = DallasTemperature(connection=connection, pin=pin_temp)
temperature_sensors.setResolution(12)

# Mute sound by default
arduino.pinMode(pin_sound, arduino.OUTPUT)
arduino.digitalWrite(pin_sound, 0)

# Initial values
last_alert = time.time()
threshold_reached = False
write_log_counter = 0

while True:
    temperature_sensors.requestTemperatures()
    temp = temperature_sensors.getTempC(
        0)  # Fetches the temperature on the first DS18B20 found on the pin.
Exemplo n.º 10
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#!/usr/bin/env python

# Author: Andrea Stagi <*****@*****.**>
# Description: just a test for DallasTemperature
# Dependencies: None

from nanpy import DallasTemperature

sensors = DallasTemperature(5)

print("There are %d devices connected on pin %d" % (sensors.getDeviceCount(), sensors.pin))
addr = sensors.getAddress(0)
sensors.setResolution(9)
while True:
    sensors.requestTemperatures(0)
    temp = sensors.getTempC(addr)
    print("The temperature, in Celsius degrees is %0.2f" % temp)
    print("Let's convert it in Fahrenheit degrees: %0.2f" % DallasTemperature.toFahrenheit(temp))

Exemplo n.º 11
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from nanpy import DallasTemperature

#arduino = Arduino()
#a.pinMode(13, a.OUTPUT)
#a.digitalWrite(13, a.HIGH)
# o = OneWire(a)

sensors = DallasTemperature(2)


addr = sensors.getAddress(2)
sensors.requestTemperatures()


temp = sensors.getTempC(addr)

print temp

Exemplo n.º 12
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from nanpy import DallasTemperature, SerialManager

device = '/dev/cu.usbmodem1411'
connection = SerialManager(device=device)
connection.open()

sensors = DallasTemperature(connection=connection, pin=2)
n_sensors = sensors.getDeviceCount()

print("There are %d devices connected on pin %d" % (n_sensors, sensors.pin))
addresses = []

for i in range(n_sensors):
    addresses.append(sensors.getAddress(i))

sensors.setResolution(12)

while True:
    sensors.requestTemperatures()
    for i in range(n_sensors):
        temp = sensors.getTempC(i)
        print("Device %d (%s) temperature, in Celsius degrees is %0.2f" %
              (i, addresses[i], temp))
        print("Let's convert it in Fahrenheit degrees: %0.2f" %
              DallasTemperature.toFahrenheit(temp))
    print("\n")
Exemplo n.º 13
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#!/usr/bin/env python

# Author: Andrea Stagi <*****@*****.**>
# Description: just a test for DallasTemperature
# Dependencies: None

from nanpy import DallasTemperature

sensors = DallasTemperature(5)
n_sensors = sensors.getDeviceCount()

print("There are %d devices connected on pin %d" % (n_sensors, sensors.pin))
addresses = []

for i in range(n_sensors):
    addresses.append(sensors.getAddress(i))

sensors.setResolution(12)

while True:
    sensors.requestTemperatures()
    for i in range(n_sensors):
        temp = sensors.getTempC(i)
        print("Device %d (%s) temperature, in Celsius degrees is %0.2f" % (i, addresses[i], temp))
        print("Let's convert it in Fahrenheit degrees: %0.2f" % DallasTemperature.toFahrenheit(temp))
    print("\n")
Exemplo n.º 14
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# Load settings
device = settings.get('Arduino', 'SERIAL_PORT')
pin_sound = settings.getint('Arduino', 'PIN_SOUND')
pin_temp = settings.getint('Arduino', 'PIN_TEMPERATURE')
app_id = settings.get('Instapush', 'INSTAPUSH_APP_ID')
app_secret = settings.get('Instapush', 'INSTAPUSH_APP_SECRET')
event_id = settings.get('Instapush', 'INSTAPUSH_EVENT_NAME')
threshold = settings.getfloat('Fridge', 'THRESHOLD')
notify_every_x_seconds = settings.getfloat('Fridge', 'NOTIFY_EVERY_X_SECONDS')
write_log_every_x_measurements = 50

# Startup arduino connection
connection = SerialManager(device=device)
connection.open()
arduino = ArduinoApi(connection=connection)
temperature_sensors = DallasTemperature(connection=connection, pin=pin_temp)
temperature_sensors.setResolution(12)


# Mute sound by default
arduino.pinMode(pin_sound, arduino.OUTPUT)
arduino.digitalWrite(pin_sound, 0)

# Initial values
last_alert = time.time()
threshold_reached = False
write_log_counter = 0

while True:
    temperature_sensors.requestTemperatures()
    temp = temperature_sensors.getTempC(0)  # Fetches the temperature on the first DS18B20 found on the pin.
Exemplo n.º 15
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 def on_init(self):
     self.communicator.listen()
     print 'init'
     print self.params['tp1']
     self.sensors = DallasTemperature(self.params['tp1'])