Пример #1
0
    def test_enforces_units(self):
        # only wh or kwh supported
        with self.assertRaises(ValueError):
            Reading(self.sometime, self.later, "mwh", 1)

        # incorrect capitalization is okay
        Reading(self.sometime, self.later, "Wh", 1)
Пример #2
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    def test_start_time_must_be_before_end_time(self):
        # start and end time the same
        with self.assertRaises(ValueError):
            Reading(self.sometime, self.sometime, "wh", 1)

        # start time after end time
        with self.assertRaises(ValueError):
            Reading(self.later, self.sometime, "wh", 1)
Пример #3
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    def read_text_list(self, reading: Reading) -> list:
        db_params = reading.get_db_params()
        formatted_query = self.QUERY.format(**db_params)
        self._cursor.execute(formatted_query)

        results = []
        for row in self._cursor:
            curr_result = self._parse_row(row)

            if reading.is_target(curr_result["chapter"], curr_result["verse"]):
                results.append(curr_result)

        return results
Пример #4
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    def parse(self):
        try:
            #http://www.marcus-povey.co.uk - USED REGEX REGEX!
            uidRegex = re.compile('<id>([0-9]+)</id>')
            valueRegex = re.compile('<watts>([0-9]+)</watts>')
            timeRegex = re.compile('<time>([0-9\.\:]+)</time>')
            value = str(int(valueRegex.findall(self._data)[0]))
            time = timeRegex.findall(self._data)[0]
            self.uid = uidRegex.findall(self._data)[0]
            self.logger.info('Parsed data sucessfully!')
            self._r = Reading(self, value, time, self.logger)

        except Exception:
            self.logger.error('Could not get details from device')
Пример #5
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    def run(self):
        run = True

        while run:

            self.draw()

            for event in pygame.event.get():
                if event.type == pygame.QUIT:
                    run = False

            keys = pygame.key.get_pressed()

            if keys[pygame.K_t]:
                tiping = Tiping(self.win)
                tiping.run()
                del tiping

            elif keys[pygame.K_r]:
                reading = Reading(self.win)
                reading.run()
                del reading

        pygame.quit()
Пример #6
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    def _reading_generator(self, samples, start, stop):
        """Yields one reading at a time.

        Samples are grouped by resource id(already sorted by resource id)
        and then used to create a reading object.

        :param samples: List of samples sorted by resource_id and timestamp.
        :type samples: List
        :param start: Reading start time
        :type start: Datetime
        :param stop: Reading stop time
        :type stop: Datetime
        :yields: Reading objects
        """
        # Yield a reading for each resource/meter pair
        for _, g in itertools.groupby(samples, lambda x: x.resource_id):
            try:
                yield Reading(list(g), start, stop)
            except NoSamplesError:
                continue
Пример #7
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class Representation(object):

    R = Reading()
    reading_cleaned = R.cleaned_and_tokenized()
    reading = R.get_readable()

    def __init__(self):
        self.df_songs = pd.read_csv('../CSV/prep_songs_pl_lem_stop_wcrft2.csv',
                                    header=0,
                                    index_col=None)

    def bigram_count(self):
        bigram_vect = CountVectorizer(ngram_range=(2, 2), binary=False)
        bigram_sparse = bigram_vect.fit_transform(self.df_songs.iloc[:, -1])
        df_bigram = pd.DataFrame(bigram_sparse.toarray())
        df_bigram.columns = bigram_vect.get_feature_names()

        bigram_sparse2 = bigram_vect.transform(self.reading_cleaned)
        df2_bigram = pd.DataFrame(bigram_sparse2.toarray())
        df2_bigram.columns = bigram_vect.get_feature_names()
        return df_bigram, df2_bigram
Пример #8
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    def __init__(self,
                 latitude=None,
                 longitude=None,
                 temperature=None,
                 precipitation=None,
                 humidity=None,
                 wind=None):
        """"""
        if temperature is None:
            self.temperature = Temperature()
        else:
            # TODO type check on input
            self.temperature = temperature  # Feels like, unit
        self.humidity = None
        self.summary = None
        self.icon = None
        self.date_time = None
        self.latitude = latitude  # TODO input validation
        self.longitude = longitude  # TODO input validation
        self.altitude = None
        if precipitation is None:
            self.precipitation = Precipitation()
        else:
            # TODO type check on input
            self.precipitation = precipitation

        # TODO type check on input
        self.humidity = Reading(humidity, "%")
        if wind is None:
            self.wind = Wind()
        else:
            # TODO type check on input
            self.wind = wind

        self.cloud_cover = None
        self.moon_phase = None
        self.uv_index = None
        self.is_daytime = None
        self.alerts = []
        self.unix = None
Пример #9
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 def add_reading(self, line: str):
     if Reading.is_reading(line):
         new_reading = Reading(line)
         self.readings.append(new_reading)
Пример #10
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    def scrape(self):
        page = requests.get(
            'https://www.ndbc.noaa.gov/station_page.php?station=' +
            self.stationID)

        self.tree = html.fromstring(page.content)

        if not self.isValidStation():
            return

        # setup the dictionaries
        buoy = {}
        reading = {}

        buoy['station_id'] = self.stationID
        reading['station_id'] = self.stationID

        # Main box variables
        reading['wind_direction'] = self.grabDirectionTupleFromString(
            self.grabFromTree('"Wind Direction (WDIR):"'))
        reading['wind_speed'] = self.grabNumberFromString(
            self.grabFromTree('"Wind Speed (WSPD):"'))
        reading['wind_gust'] = self.grabNumberFromString(
            self.grabFromTree('"Wind Gust (GST):"'))
        reading['wave_height'] = self.grabNumberFromString(
            self.grabFromTree('"Wave Height (WVHT):"')
        )  # this also seems to track 'Significant Wave Height'
        reading['dominant_period'] = self.grabNumberFromString(
            self.grabFromTree('"Dominant Wave Period (DPD):"'))
        reading['average_period'] = self.grabNumberFromString(
            self.grabFromTree('"Average Period (APD):"'))
        reading['wave_direction'] = self.grabDirectionTupleFromString(
            self.grabFromTree('"Mean Wave Direction (MWD):"'))
        reading['air_temperature'] = self.grabNumberFromString(
            self.grabFromTree('"Air Temperature (ATMP):"'))

        # Secondary box variables
        reading['significant_wave_height'] = self.grabNumberFromString(
            self.grabFromTree('"Significant Wave Height (WVHT):"'))
        reading['swell_height'] = self.grabNumberFromString(
            self.grabFromTree('"Swell Height (SwH):"'))
        reading['swell_period'] = self.grabNumberFromString(
            self.grabFromTree('"Swell Period (SwP):"'))
        reading['swell_direction'] = self.constructDirectionTupleFromString(
            self.grabFromTree('"Swell Direction (SwD):"'))
        reading['wind_wave_height'] = self.grabNumberFromString(
            self.grabFromTree('"Wind Wave Height (WWH):"'))
        reading['wind_wave_period'] = self.grabNumberFromString(
            self.grabFromTree('"Wind Wave Period (WWP):"'))
        reading[
            'wind_wave_direction'] = self.constructDirectionTupleFromString(
                self.grabFromTree('"Wind Wave Direction (WWD):"'))
        reading['average_wave_period'] = self.grabNumberFromString(
            self.grabFromTree('"Average Wave Period (APD):"'))

        # Grab the time
        reading['first_time'] = self.grabLocalTime(True)
        reading['second_time'] = self.grabLocalTime(False)

        # Grab the buoy name
        buoyName = self.grabBuoyName()
        buoy['name'] = buoyName
        reading['buoy_name'] = buoyName

        # Remove nulls
        reading = {k: v for k, v in reading.items() if v != None}

        # Instantiate model objects
        buoyObject = Buoy(**buoy)
        readingObject = Reading(**reading)

        #readingObject.id = self.db.readings.insert_one(readingObject.mongoDB()).inserted_id
        self.db.readings.update({'station_id': self.stationID},
                                readingObject.mongoDB(),
                                upsert=True)
        self.db.buoys.update({'station_id': self.stationID},
                             buoyObject.mongoDB(),
                             upsert=True)
Пример #11
0
    def update(self, stationID):
        potentialBuoy = self.db.potentialBuoys.find_one(
            {'station_id': stationID})

        if potentialBuoy is None:
            # This is not a valid stationID
            return
        buoyName = potentialBuoy['name']
        buoy = {'station_id': potentialBuoy['station_id'], 'name': buoyName}

        # gets you the first box:
        # https://www.ndbc.noaa.gov/data/realtime2/41013.txt
        # then this for second box:
        # https://www.ndbc.noaa.gov/data/realtime2/44013.spec

        try:
            firstBoxData = urllib2.urlopen(
                "https://www.ndbc.noaa.gov/data/realtime2/" + stationID +
                ".txt").read(2000)
            secondBoxData = urllib2.urlopen(
                "https://www.ndbc.noaa.gov/data/realtime2/" + stationID +
                ".spec").read(2000)
        except urllib2.HTTPError:
            print('error caught trying to fetch ' + stationID)
            # TODO make this still update the reading as empty or something
            return

        # For some stations (e.g. 44008) the first box data is taken every 10 min,
        # but only 1 per hour (usually on the 50 min) has all the data.

        # First box columns and units:
        # YY  MM DD hh mm WDIR WSPD GST  WVHT   DPD   APD MWD   PRES  ATMP  WTMP  DEWP  VIS PTDY  TIDE
        # yr  mo dy hr mn degT m/s  m/s     m   sec   sec degT   hPa  degC  degC  degC  nmi  hPa    ft

        # Second box columns and units:
        # YY  MM DD hh mm WVHT  SwH  SwP  WWH  WWP SwD WWD  STEEPNESS  APD MWD
        # yr  mo dy hr mn    m    m  sec    m  sec  -  degT     -      sec degT

        lines = firstBoxData.split('\n')
        firstLine = lines[0]
        firstLineValues = firstLine.split()

        minuteIndex = firstLineValues.index('mm')

        readingLines = lines[2:]

        # default to the latest if no 50 min readings are found
        latestFullReadingValues = readingLines[0].split()

        for readingLine in readingLines:
            readingValues = readingLine.split()
            minutes = readingValues[minuteIndex]
            if minutes == '50':
                latestFullReadingValues = readingValues
                break

        firstBoxDictionary = {}

        for index, label in enumerate(firstLineValues):
            readingValue = latestFullReadingValues[index]
            firstBoxDictionary[label] = readingValue

        lines = secondBoxData.split('\n')
        firstLine = lines[0]
        firstLineValues = firstLine.split()

        readingLine = lines[2]

        latestFullReadingValues = readingLine.split()

        secondBoxDictionary = {}

        for index, label in enumerate(firstLineValues):
            readingValue = latestFullReadingValues[index]
            secondBoxDictionary[label] = readingValue

        waveHeight = self.feetFromReading(firstBoxDictionary, 'WVHT')
        wavePeriod = self.floatFromReading(firstBoxDictionary, 'DPD')
        waveDirection = self.floatFromReading(firstBoxDictionary, 'MWD')
        swellHeight = self.feetFromReading(secondBoxDictionary, 'SwH')
        swellPeriod = self.floatFromReading(secondBoxDictionary, 'SwP')
        swellDirection = self.compassToDegreesFromReading(
            secondBoxDictionary, 'SwD')  # Are all of these Strings?
        #2019-10-20T17:50:00Z
        try:
            wavesDatetime = (firstBoxDictionary['#YY'] + '-' +
                             firstBoxDictionary['MM'] + '-' +
                             firstBoxDictionary['DD'] + 'T' +
                             firstBoxDictionary['hh'] + ':' +
                             firstBoxDictionary['mm'] + ':00Z')
        except KeyError:
            wavesDatetime = None
        windDirection = self.floatFromReading(firstBoxDictionary, 'WDIR')
        windSpeed = self.knotsFromReading(firstBoxDictionary, 'WSPD')

        reading = {
            'station_id': stationID,
            'buoy_name': buoyName,
            'wind_direction': windDirection,
            'wind_speed': windSpeed,
            'wave_height': waveHeight,
            'dominant_period': wavePeriod,
            'wave_direction': waveDirection,
            'swell_height': swellHeight,
            'swell_period': swellPeriod,
            'swell_direction': swellDirection,
            'datetime': wavesDatetime
        }

        # Remove nulls
        reading = {k: v for k, v in reading.items() if v != None}

        # Instantiate model objects
        buoyObject = Buoy(**buoy)
        readingObject = Reading(**reading)

        #readingObject.id = self.db.readings.insert_one(readingObject.mongoDB()).inserted_id
        self.db.readings.update({'station_id': stationID},
                                readingObject.mongoDB(),
                                upsert=True)
        self.db.buoys.update({'station_id': stationID},
                             buoyObject.mongoDB(),
                             upsert=True)
Пример #12
0
class Meter(object):
    class MeterReadngException(Exception):
        def __init__(self, msg):
            self.msg = msg

        def __str__(self):
            return self.msg

    '''Constructors'''

    def __init__(self,
                 port='/dev/ttyUSB0',
                 baud=57600,
                 timeout=10,
                 uid=None,
                 unit='w',
                 logger=None):
        '''Public Vars'''
        self.port = port
        self.baud = baud
        self.timeout = timeout
        self.uid = uid
        self.unit = unit
        self.logger = logger or logging.getLogger(__name__)
        '''Prvate Vars'''
        self._r = None
        self._data = None
        #self._meter = None
        self._meter = serial.Serial(self.port, self.baud, timeout=self.timeout)

    '''Properties (Getters/Setters'''
    '''? @property decorator?'''
    '''
    def set_email(self, value)
        if '@' not in value:
            raise Exception("This doesn't look like an email address.")
        self._email = value

    def get_email(self):
        return self._email

    email = property(get_email, set_email)
    '''
    '''Methods'''

    def __str__(self):
        return "Meter: " + self.uid

    def open(self):
        self._meter.open()

    def read(self):
        try:
            self._data = self._meter.readline()

        except:
            pass

    def close(self):
        self._meter.close()

    def parse(self):
        try:
            #http://www.marcus-povey.co.uk - USED REGEX REGEX!
            uidRegex = re.compile('<id>([0-9]+)</id>')
            valueRegex = re.compile('<watts>([0-9]+)</watts>')
            timeRegex = re.compile('<time>([0-9\.\:]+)</time>')
            value = str(int(valueRegex.findall(self._data)[0]))
            time = timeRegex.findall(self._data)[0]
            self.uid = uidRegex.findall(self._data)[0]
            self.logger.info('Parsed data sucessfully!')
            self._r = Reading(self, value, time, self.logger)

        except Exception:
            self.logger.error('Could not get details from device')

    def submit(self):
        try:
            self._r.submit()
        except Exception:
            self.logger.error('Reading not initialised')
        self._r = None
Пример #13
0
def Main(args=None):
  ##creates a main for the interface
  print("*Welcome to the robot interface*")
  ##demo
  str = raw_input("*Press c to connect to the robot*")
  if str == "c":
    inter = Interface()
    read = Reading()
    cond = raw_input("*enter a for commands, enter b for reading, enter c for exit*")
    if cond == "a":
      is_go = False
      while is_go == False:
        print("*enter the number you want for the command*")
        var = raw_input("*rp for reset and passive, ra2 for reading button, d to disconnect, r to reset\n sa for safe,pdc for pd controller, dr for drive*,pe for Pentagon drive, ! for stop, e for exit\n , f for full mode, drd for drive direct,p for play,so for song:")
        if var == "e":
          is_go = True
          inter.close()
        if var == "ra":
          read.isActive()
        if var == "ra2":
          inter.full()
          read.isActive2()
        if var == "wall":
          read.wall()
        if var == "pdc":
          read.pdcontroller()
        if var == "para":
          read.pararun()
        if var == "IC3":
          read.testIC3()
        if var == "IC5":
          read.testIC5()
        if var == "p":
          inter.play(0)
          ##inter.play(1)
        if var == "so":
          inter.song()
        else:
          inter.command(var)
    if cond == "b":
      inter.passive()
      choices = raw_input("*enter 1 for reading raw input and enter 2 to read sensor*")
      if choices == "1":
        raw_bytes = raw_input("*enter the number of bytes to read*")
        inter.read_raw(raw_bytes)
      if choices == "2":
        sensor_id = raw_input("*enter the sensor packet id*")
        inter.read_sensor(sensor_id)
    if cond == "c":
      is_connected = False
      inter.close()
  else:
    is_connected = False
    inter.close()
Пример #14
0
 def test_duration(self):
     r = Reading(self.sometime, self.later, "wh", 1)
     self.assertEqual(r.duration(), timedelta(seconds=1))
Пример #15
0
import time
from card import Card
from querent import Querent
from reading import Reading
from tarotdb import TarotDB
from tweeter import Tweeter
import os
from os import environ

CONSUMER_KEY = os.environ.get('CONSUMER_KEY')
CONSUMER_SECRET = os.environ.get('CONSUMER_SECRET')
ACCESS_KEY = os.environ.get('ACCESS_KEY')
ACCESS_SECRET = os.environ.get('ACCESS_SECRET')

db = TarotDB("diviner.db")
tw = Tweeter(CONSUMER_KEY, CONSUMER_SECRET, ACCESS_KEY, ACCESS_SECRET)
querents = Querent()
for q in querents.get_querents():
    reading = Reading(db, q)
    tweet = reading.get_reading()
    tw.tweet(tweet)
Пример #16
0
class ResourceApi:

    datastream = Datastream()
    sensor = Sensor()
    reading = Reading()
    statio = Station()
Пример #17
0
    usage_json = coned.get_usage()
except Exception as e:
    raise e

usage = json.loads(usage_json)

readings = []
for read in usage["reads"]:
    # Opower gives readings with null value for intervals that don't have data
    # yet, so skip them.
    if read["value"] is None:
        continue

    reading = Reading(
        dateutil.parser.isoparse(read["startTime"]),
        dateutil.parser.isoparse(read["endTime"]),
        usage["unit"],
        read["value"],
    )
    readings.append(reading)

cnx = mysql.connector.connect(user=MYSQL_USER,
                              password=MYSQL_PASS,
                              host=MYSQL_HOST,
                              database=MYSQL_DB)
cursor = cnx.cursor()

for r in readings:
    add_reading = ("INSERT IGNORE INTO readings "
                   "(start, end, wh) "
                   "VALUES (%s, %s, %s)")
    data_reading = (r.start_time.astimezone(tz=timezone.utc),