Exemplo n.º 1
0
 def get_timezone_offset(self) -> Optional[str]:
     zipcode = self.get_rich_zipcode()
     if zipcode is None:
         return None
     tf = TimezoneFinder()
     longitude = zipcode['Longitude']
     latitude = zipcode['Latitude']
     timezone_name = tf.timezone_at(lng=longitude, lat=latitude)
     if timezone_name is None:
         return None
     return datetime.datetime.now(pytz.timezone(timezone_name)).strftime('%z')
Exemplo n.º 2
0
def getTimeZone( location ):
    from timezonefinder import TimezoneFinder

    tf = TimezoneFinder( )

    if isinstance( location, str ):
        location = getLocation( location )
    elif not isinstance( location, RPNLocation ):
        raise ValueError( 'location name or location object expected' )

    timezone_name = tf.timezone_at( lat = location.getLat( ), lng = location.getLong( ) )

    if timezone_name is None:
        timezone_name = tf.closest_timezone_at( lat = location.getLat( ),
                                                lng = location.getLong( ) )

    return timezone_name
Exemplo n.º 3
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    def sunset_sunrise(self, long, lat, day, month, year):
        # from Sun import Sun
        coords = {'longitude': long, 'latitude': lat}
        date = {'day': day, 'month': month, 'year': year}
        sun = Sun()

        tf = TimezoneFinder()
        timezone = tf.timezone_at(lng=long, lat=lat)

        # Sunrise time UTC (decimal, 24 hour format)
        sunrise = self.convert_time(
            timezone,
            sun.getSunriseTime(coords, date)['decimal'], date)

        # Sunset time UTC (decimal, 24 hour format)
        sunset = self.convert_time(timezone,
                                   sun.getSunsetTime(coords, date)['decimal'],
                                   date)

        return sunrise, sunset
Exemplo n.º 4
0
    def __init__(self, bootstrap, debug_enabled):
        """
        Constructor

        Args:
            bootstrap (dict): bootstrap objects
            debug_enabled (bool): flag to set debug level to logger
        """
        # init
        CleepModule.__init__(self, bootstrap, debug_enabled)

        # members
        self.hostname = Hostname(self.cleep_filesystem)
        self.sun = Sun()
        self.sunset = None
        self.sunrise = None
        self.suns = {
            "sunset": 0,
            "sunset_iso": "",
            "sunrise": 0,
            "sunrise_iso": ""
        }
        self.timezonefinder = TimezoneFinder()
        self.timezone_name = None
        self.timezone = None
        self.time_task = None
        self.sync_time_task = None
        self.__clock_uuid = None
        # code from https://stackoverflow.com/a/106223
        self.__hostname_pattern = (
            r"^(([a-zA-Z0-9]|[a-zA-Z0-9][a-zA-Z0-9\-]*[a-zA-Z0-9])\.)*"
            r"([A-Za-z0-9]|[A-Za-z0-9][A-Za-z0-9\-]*[A-Za-z0-9])$")

        # events
        self.time_now_event = self._get_event("parameters.time.now")
        self.time_sunrise_event = self._get_event("parameters.time.sunrise")
        self.time_sunset_event = self._get_event("parameters.time.sunset")
        self.hostname_update_event = self._get_event(
            "parameters.hostname.update")
        self.country_update_event = self._get_event(
            "parameters.country.update")
Exemplo n.º 5
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def timezones():

    if request.method == 'GET':
        return render_template('timezones.html')

    else:
        df = pd.read_csv(request.files.get("timezone_file"))
        df.index = df.timestamp
        df.index = pd.to_datetime(df.index)
        df.index = df.index.tz_localize('UTC')
        tf = TimezoneFinder(in_memory=True)
        timezones = []
        for index, row in df.iterrows():
            latitude = (row['latitude'])
            longitude = (row['longitude'])
            print(latitude, longitude)
            try:
                timezones.append(tf.timezone_at(lng=longitude, lat=latitude))
            except:
                timezones.append('N/A')

        df['timezone'] = timezones

        converted = []
        for index, row in df.iterrows():
            timezone = row['timezone']
            try:
                convert = index.tz_convert(timezone)
                converted.append(convert)
            except:
                converted.append('N/A')

        df['local_timestamp'] = converted
        df['local_time'] = df['local_timestamp'].astype(str).str[:19]
        #df = df.reset_index()
        print(df.columns)
        resp = make_response(df.to_csv())
        resp.headers[
            "Content-Disposition"] = "attachment; filename=timezone_export.csv"
        resp.headers["Content-Type"] = "text/csv"
        return resp
Exemplo n.º 6
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 def get_time(self):
     """
     Using TimezoneFinder().timezone_at() to cast given latitude and longitude
     into a string representation ex: "Asia/Tokyo"
     Details:
     print(timezone_string)  # this print Etx/GMT-9 for lat=5.7 and 139.7
     print(datetime.now(timezone("Asia/Tokyo")))
     """
     timezone_string = TimezoneFinder().timezone_at(lat=self.latitude,
                                                    lng=self.longitude)
     time_now = datetime.now(timezone(timezone_string))
     return time_now
Exemplo n.º 7
0
def location(update, context):
    tf = TimezoneFinder()
    time_now = datetime.now()
    longitude = update.message.location['longitude']
    latitude = update.message.location['latitude']
    a = datetime.now(pytz.timezone(tf.certain_timezone_at(lng=longitude, lat=latitude))).strftime('%Z%z')
    b = pytz.timezone(tf.certain_timezone_at(lng=longitude, lat=latitude))
    print(b)
    tzzz_hours = int(a[-5:]) // 100
    tzzz_minutes = int(a[-5:]) % 100
    # due = datetime(time_now.year, time_now.month, time_now.day, 1, 2,
    #                tzinfo=timezone(timedelta(hours=int(a[-5:]) / 100)))
    # print(due)
    # task_time = datetime(time_now.year, time_now.month, time_now.day, int(1),
    #                      int(1), tzinfo=timezone(timedelta(hours=tzzz)))
    # print(task_time)
    task_time = datetime(time_now.year, time_now.month, time_now.day, int(1),
                         int(1), tzinfo=timezone(timedelta(hours=tzzz_hours, minutes=tzzz_minutes))).astimezone(utc)
    print(task_time)
    context.chat_data['local_tz'] = {'hours': tzzz_hours, 'minutes': tzzz_minutes}
    print(context.chat_data)
Exemplo n.º 8
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def getTime(tweet, latit, longit):
    #get timezone
    zone = TimezoneFinder().timezone_at(lng=longit, lat=latit)
    timezone = pytz.timezone(zone)  #convert zone string to pytz format

    #convert to local time
    utc_time = dt.datetime.strptime(
        tweet["created_at"],
        '%a %b %d %H:%M:%S +0000 %Y').replace(tzinfo=pytz.UTC)
    local_time = utc_time.replace(tzinfo=pytz.utc).astimezone(timezone)
    #  finaltime = local_time.strftime(format='%Y-%m-%d %H:%M:%S')
    return local_time
Exemplo n.º 9
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def main():
    """Find the time of a given location.

    :return: A namedtuple, TimeZoneResult with location and time.
    """
    location = str(input('Location : '))
    geocode_result = Geocoder(API_KEY).geocode(location)
    coordinates = geocode_result.data[0]['geometry']['location']
    location = geocode_result.data[0]['formatted_address']
    timezone = TimezoneFinder().timezone_at(**coordinates)
    time = datetime.now(pytz.timezone(timezone))
    return TimeZoneResult(location=location, time=time)
Exemplo n.º 10
0
    async def get_timezone(self, ctx, ip):
        """
        returns your timezone relative to UTC
        """
        if ctx.author.id not in self.tz:
            # Get GMT offset and store the offset in a json object
            async with aiohttp.ClientSession() as session:
                async with session.get(
                        "https://api.radar.io/v1/geocode/ip",
                        params={"ip": ip},
                        headers={
                            "Authorization": os.environ.get("RADAR_TOKEN")
                        },
                ) as r:
                    r = await r.json()
                    lat = r["address"]["latitude"]
                    lng = r["address"]["longitude"]

                    today = datetime.now()
                    tf = TimezoneFinder()
                    tz_target = timezone(
                        tf.certain_timezone_at(lng=lng, lat=lat))
                    today_target = tz_target.localize(today)
                    today_utc = utc.localize(today)
                    utc_offset = (today_utc -
                                  today_target).total_seconds() / 3600
                    await ctx.author.send(
                        f"You are: {utc_offset} hours from UTC")
            # Store UTC offset
            self.tz[ctx.author.id] = int(utc_offset)
            with open("timezone.json", mode="w") as f:
                json.dump(self.tz, f)
        elif ctx.author.id in self.tz:
            # return the timezone from the json file
            authortimezone = self.tz[ctx.author.id]
            if authortimezone < 0:
                await ctx.author.send(f"Your timezone: (UTC{authortimezone})")
            elif authortimezone >= 0:
                await ctx.author.send(f"Your timezone: (UTC+{authortimezone})")
        await ctx.message.delete()
Exemplo n.º 11
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def get_gps_data():

    if config['sensors']['gps_enable']:
        try:
            # Reinitialise gpsd connection if it's broken for some reason
            if not gps_data['mode']:
                gpsd.connect()

            # Read some data
            packet = gpsd.get_current()
            # Deposit it into the global dict
            gps_data['mode'] = packet.mode
            gps_data['mode_text'] = gps_mode_text[gps_data['mode']]
            gps_data['sats'] = packet.sats
            gps_data['sats_valid'] = packet.sats_valid

            # Present some information if we have a fix
            if (gps_data['mode'] >= 2):
                gps_data['time'] = packet.get_time().replace(
                    tzinfo=None, microsecond=0).isoformat()
                gps_data['time_local'] = packet.get_time(
                    local_time=True).replace(tzinfo=None,
                                             microsecond=0).isoformat()
                gps_data['timezone'] = TimezoneFinder().timezone_at(
                    lng=packet.lon, lat=packet.lat)
                gps_data['latitude'] = round(packet.lat, 4)
                gps_data['longitude'] = round(packet.lon, 4)
                gps_data['speed'] = int(packet.speed())
            else:
                gps_data['time'] = None
                gps_data['time_local'] = None
                gps_data['timezone'] = None
                gps_data['latitude'] = None
                gps_data['longitude'] = None
                gps_data['speed'] = None

            # Information below is only obtainable from a 3D fix
            if (gps_data['mode'] >= 3):
                gps_data['altitude'] = int(packet.alt)
            else:
                gps_data['altitude'] = None

        except Exception as e:
            # Error has occurred, log it
            logger.error("Failed to get GPS data: " + str(e))
            gps_data.clear()
            gps_data['enabled'] = True
            gps_data['mode'] = 0
            gps_data['mode_text'] = gps_mode_text[gps_data['mode']]

    else:
        logger.warn('Request to read GPS data, but not enabled in config')
Exemplo n.º 12
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    def is_future_sample_date(self, date_str, time_str, site_id):
        site = Site.objects.get_or_none(id=site_id)

        if site is None or site.location is None:
            return False

        x = site.location.x
        y = site.location.y

        tf = TimezoneFinder()
        tz_str = tf.timezone_at(lng=x, lat=y) or "UTC"
        tzinfo = tz.gettz(tz_str)
        sample_date = parse_datetime("{} {}".format(date_str, time_str))

        if sample_date is None:
            return False

        sample_date = sample_date.replace(tzinfo=tzinfo)
        todays_date = timezone.now().astimezone(tzinfo)
        delta = todays_date - sample_date

        return delta.days < 0
 def process_request(self, request):
     user_time_zone = request.session.get('user_time_zone', None)
     user_time_zone = None
     try:
         if user_time_zone is None:
             ip = get_real_ip(request)
             if ip is None:
                 tf = TimezoneFinder()
                 print
                 point = (request.user.userdata.address.longditude,request.user.userdata.address.latitude)
                 user_time_zone = tf.timezone_at(*point)
                 request.session['user_time_zone'] = user_time_zone
             else :
                 freegeoip_response = requests.get('http://freegeoip.net/json/{0}'.format())
                 freegeoip_response_json = freegeoip_response.json()
                 user_time_zone = freegeoip_response_json['time_zone']
                 if user_time_zone:
                     request.session['user_time_zone'] = user_time_zone
         timezone.activate(pytz.timezone(user_time_zone))
     except:
         pass
     return None
Exemplo n.º 14
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def restart_jobs(dp):
    for chat_id in dp.chat_data:
        if 'job' in dp.chat_data[chat_id]:
            tf = TimezoneFinder()
            tz_at_home = tf.timezone_at(lng=dp.chat_data[chat_id]['lon'],
                                        lat=dp.chat_data[chat_id]['lat'])
            hometz = pytz.timezone(tz_at_home)

            reminder_time = datetime.utcnow()
            input_time = datetime.strptime(dp.chat_data[chat_id]['time'],
                                           "%H:%M")
            reminder_time = reminder_time.replace(hour=input_time.hour,
                                                  minute=input_time.minute,
                                                  second=input_time.minute)
            reminder_time = (reminder_time -
                             hometz.utcoffset(reminder_time)).time()

            job_context = ChatContext(chat_id, dp.chat_data[chat_id])
            new_job = dp.job_queue.run_daily(send_home_monitor,
                                             reminder_time,
                                             context=job_context)
            dp.bot_data[chat_id] = new_job
Exemplo n.º 15
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def extract_time(t, lon, lat):
    from_zone = tz.tzutc()
    tf = TimezoneFinder()
    ts = [
        time.strftime('%Y-%m-%d %H:%M:%S',
                      time.strptime(date_string, '%a %b %d %H:%M:%S +0000 %Y'))
        for date_string in t
    ]
    utc = [datetime.strptime(x, '%Y-%m-%d %H:%M:%S') for x in ts]
    timezone_str = [
        tf.timezone_at(lng=lon[i], lat=lat[i]) for i in range(len(lon))
    ]

    to_zone = [
        pytz.timezone(x) if x is not None else pytz.timezone('UTC')
        for x in timezone_str
    ]
    local_time = [
        utc[i].replace(tzinfo=from_zone).astimezone(to_zone[i])
        for i in range(len(to_zone))
    ]
    return [[x.year, x.month, x.day, x.hour, x.minute] for x in local_time]
Exemplo n.º 16
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class Location(object):
    
    _locator = CachedGeoLocator().load()
    _tf = TimezoneFinder()

    @classmethod
    def save_cache(cls):
        if cls._locator is not None:
            cls._locator.save()

    def __init__(self, account_id, region_id, identifier, name, coords=None, timezone_name=None, created_at=None):
        self.account_id = account_id
        self.region_id = region_id
        self.identifier = identifier
        self.name = name
        self.coords = coords
        self.timezone_name = timezone_name
        if created_at is None:
            self.created_at = dt.datetime.now()
        else:
            self.created_at = created_at

        if self.coords is None:
            # Use geolocation service to determine coords based on name of location
            loc = self._locator.get_location(name)
            self.coords = Coords(loc['lng'],  loc['lat'])
            self.timezone_name = None

        if self.timezone_name is None:
            self.timezone_name = self._tf.timezone_at(lng=self.lng(), lat=self.lat())

    def lat(self):
        return self.coords.latitude

    def lng(self):
        return self.coords.longitude

    def alt(self):
        return self.coords.altitude

    def asLatLongTuple(self):
        return (coords.latitude, coords.longitude)

    def get_timezone(self):
        return pytz.timezone(self.timezone_name)

    def distance_NM(self, to_location):
        return great_circle(self.asLatLongTuple(), self.to_location.asLatLongTuple()).miles

    def __repr__(self):
        return '<Location(region={self.region_id}, id={self.identifier}, name={self.name!r}, coords={self.coords}, tz={self.timezone_name})>'.format(self=self)
Exemplo n.º 17
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 def to_df(self):
     if not self.waypoints:
         self.get_waypoints()
     data = []
     tf = TimezoneFinder()
     for wp in self.waypoints:
         d = collections.OrderedDict()
         d["name"] = wp.name
         d["latitude"] = wp.latitude
         d["longitude"] = wp.longitude
         d["elev (m)"] = wp.elevation
         if wp.time:
             local_tz = tf.certain_timezone_at(lng=wp.longitude,
                                               lat=wp.latitude)
             local_dt = wp.time.replace(tzinfo=timezone.utc).astimezone(
                 tz=tz.gettz(local_tz))
             d["year (local)"] = local_dt.year
             d["month (local)"] = local_dt.month
             d["day (local)"] = local_dt.day
             d["time (local)"] = str(local_dt.time().strftime("%H:%M"))
             d["timezone (local)"] = local_tz
             d["year (UTC)"] = wp.time.year
             d["month (UTC)"] = wp.time.month
             d["day (UTC)"] = wp.time.day
             d["time (UTC)"] = str(wp.time.time().strftime("%H:%M"))
         else:
             d["year (local)"] = None
             d["month (local)"] = None
             d["day (local)"] = None
             d["time (local)"] = None
             d["timezone (local)"] = None
             d["year (UTC)"] = None
             d["month (UTC)"] = None
             d["day (UTC)"] = None
             d["time (UTC)"] = None
         data.append(d)
     df = pd.DataFrame(data)
     return df
def filterhits(camera, data):
    # timezones
    tf = TimezoneFinder()
    zone = tf.timezone_at(lng=camera.lon, lat=camera.lat)

    timestamps = []
    for record in data:
        timestamps.append(record['submission']['image']['timestamp'])

    instance = {}
    for timestamp in set(timestamps):
        instance[timestamp] = {'vehicles': set(), 'bikes': set(), 'people': set()}
        for record in data:
            if record['submission']['image']['timestamp'] == timestamp:
                worker = record['submission']['workerId']
                bbox = Bbox(record['x1'], record['y1'], record['x2'], record['y2'], worker)
                # some have w = 0 or h = 0
                if bbox.w * bbox.h > 0:
                    instance[timestamp][record['type']].add(bbox)

    with open('camera_{}_points.csv'.format(camera.id), 'w') as f:
        f.write('year,month,day,hour,minute,type,count,x,y,url,url2,y,m,d,h,mi,camw,camh\n')
        for timestamp in sorted(instance.keys()):
            date, time = timestamp.split('T')
            y, m, d = date.split('-')
            h, mi, s = time.split(':')
            ts = timestamp.replace(':', '').replace('T', '_').replace('-', '')
            dt = datetime.datetime(year=int(y), month=int(m), day=int(d), hour=int(h), minute=int(mi), second=int(s), tzinfo=utc)
            lt = local_time(dt, zone)
            url = 'http://amos.cse.wustl.edu/mturk/reviewOutlines/{}/{}'.format(camera.id, ts)
            url2 = 'http://amos.cse.wustl.edu/image/{}/{}.jpg'.format(camera.id, ts)
            for htype in instance[timestamp].keys():
                records = resolve_duplicates(list(instance[timestamp][htype]))
                for xx, yy in records:
                    f.write('{yl},{ml},{dl},{hl},{mil},{tp},{cnt},{xx},{yy},{url},{url2},{y},{m},{d},{h},{mi},{camw},{camh}\n'
                            .format(yl=lt.year, ml=lt.month, dl=lt.day, hl=lt.hour, mil=lt.minute, y=y, m=m,
                                    d=d, h=h, mi=mi, tp=htype, cnt=len(records), xx=xx, yy=yy, url=url, url2=url2,
                                    camw=camera.w, camh=camera.h))
Exemplo n.º 19
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    def prepareResponse(self, res, data):
        if res != {}:
            tf = TimezoneFinder()

            if res.get("coord") and res["coord"] != None:
                data.update({
                    "latitude":
                    res["coord"]["lat"],
                    "longitude":
                    res["coord"]["lon"],
                    "local_timezone":
                    timezone(
                        tf.timezone_at(lng=res["coord"]["lon"],
                                       lat=res["coord"]["lat"]))
                })

            if res.get("main") and res["main"] != None:
                data.update({
                    "temp": res["main"]["temp"],
                    "feel": res["main"]["feels_like"],
                    "min_temp": res["main"]["temp_min"],
                    "max_temp": res["main"]["temp_max"],
                    "pressure": res["main"]["pressure"],
                    "humidity": res["main"]["humidity"]
                })

            if res.get("weather") and res["weather"][0] != None:
                data.update({
                    "main": res["weather"][0]["main"],
                    "desc": res["weather"][0]["description"],
                    "icon": res["weather"][0]["icon"],
                })

            if res.get("sys") and res["sys"] != None:
                data.update({
                    "country":
                    res["sys"]["country"],
                    "sunrise":
                    datetime.datetime.fromtimestamp(
                        res["sys"]["sunrise"],
                        tz=timezone(
                            tf.timezone_at(lng=res["coord"]["lon"],
                                           lat=res["coord"]["lat"]))),
                    "sunset":
                    datetime.datetime.fromtimestamp(
                        res["sys"]["sunset"],
                        tz=timezone(
                            tf.timezone_at(lng=res["coord"]["lon"],
                                           lat=res["coord"]["lat"]))),
                    "timestamp":
                    datetime.datetime.now(tz=timezone(
                        tf.timezone_at(lng=res["coord"]["lon"],
                                       lat=res["coord"]["lat"]))).strftime(
                                           "%A %B %d, %Y %I:%M:%S %p %Z")
                })

            if res.get("name") and res["name"] != None:
                data.update({"name": res["name"]})
Exemplo n.º 20
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    def __init__(
        self,
        include_dst: bool = False,
        time: Optional[str] = None,
        groupings: Optional[Dict[int, List[int]]] = None,
    ) -> None:
        """
        Configure plugin options to generate the desired ancillary.

        Args:
            include_dst:
                If True, find and use the UTC offset to a grid point including
                the effect of daylight savings.
            time:
                A datetime specified in the format YYYYMMDDTHHMMZ at which to
                calculate the mask (UTC). If daylight savings are not included
                this will have no impact on the resulting masks.
            groupings:
                A dictionary specifying how timezones should be grouped if so
                desired. This dictionary takes the form::

                    {-9: [-12, -5], 0:[-4, 4], 9: [5, 12]}

                The numbers in the lists denote the inclusive limits of the
                groups. This is of use if data is not available at hourly
                intervals.
        """
        try:
            importlib.util.find_spec("timezonefinder")
        except ImportError as err:
            raise err
        else:
            from timezonefinder import TimezoneFinder

        self.tf = TimezoneFinder()
        self.time = time
        self.include_dst = include_dst
        self.groupings = groupings
Exemplo n.º 21
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def determine_timezone(latitude: float, longitude: float):
    """
    Determine the timezone for a given set of coordinates

    Parameters
    ==========
    latitude : 'float'
        Latitude value
    longitude : 'float'
        Longitude value

    Returns
    =======
    timezone: 'str'
        Timezone string for given coordinates or 'None' in case of an error
    """

    assert type(latitude) in [float, int]
    assert type(longitude) in [float, int]

    tf = TimezoneFinder()
    timezone = tf.timezone_at(lng=longitude, lat=latitude)
    return timezone
Exemplo n.º 22
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 def __init__(self):
     self.timezone_finder = TimezoneFinder()
     self.sensor_array = Sensors(mock=True)
     try:
         self.vessel = Vessel.objects.latest(field_name="created_at")
     except Vessel.DoesNotExist as error:
         logger.debug("LoggerJob __init__ - {0}".format(error))
     try:
         most_recent_day = Day.objects.filter(
             vessel=self.vessel).latest("created_at")
     except (AttributeError, Day.DoesNotExist) as error:
         logger.warning(
             "Previous Day not found. One will be created "
             "at the beginning of the next hour if a vessel is defined "
             "at POST /vessel/")
     try:
         previous_entry = Hour.objects.filter(day=most_recent_day).latest()
         self.update_sensor_array_by_previous_entry(previous_entry)
     except (UnboundLocalError, Hour.DoesNotExist) as error:
         logger.info(
             "Previous Hour entry not found. One will be created "
             "at the beginning of the next hour if a vessel is defined "
             "at POST /vessel/")
def generate(start_date, end_date, data_file):
    """
    Generates the weather data and outputs to stdout.

    :param data_file: Absolute path to the source data file.
    :param start_date: The starting date to begin generating weather data for.
    :param end_date: The end date to stop generating weather date for.
    """
    location_records = []

    with open(data_file) as location_file:
        location_records = json.load(location_file)

    current_date = start_date

    while current_date <= end_date:
        current_month = current_date.datetime.month - 1

        for location in location_records:
            tf = TimezoneFinder()
            timezone_str = tf.timezone_at(lng=location['longitude'],
                                          lat=location['latitude'])
            tz = pytz.timezone(timezone_str)

            weather_condition = WeatherCondition(
                name=location['name'],
                latitude=location['latitude'],
                longitude=location['longitude'],
                elevation=location['elevation'],
                temperature=uniform(location['temps']['min'][current_month],
                                    location['temps']['max'][current_month]),
                datetime=current_date.astimezone(tz))

            weather_condition.calculate()
            print(weather_condition)

        current_date = current_date.replace(days=1)
Exemplo n.º 24
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def current_time(converted: str = None) -> None:
    """Says current time at the requested location if any, else with respect to the current timezone.

    Args:
        converted: Takes the phrase as an argument.
    """
    place = support.get_capitalized(phrase=converted) if converted else None
    if place and len(place) > 3:
        tf = TimezoneFinder()
        place_tz = geo_locator.geocode(place)
        coordinates = place_tz.latitude, place_tz.longitude
        located = geo_locator.reverse(coordinates, language='en')
        address = located.raw.get('address', {})
        city, state = address.get('city'), address.get('state')
        time_location = f'{city} {state}'.replace(
            'None', '') if city or state else place
        zone = tf.timezone_at(lat=place_tz.latitude, lng=place_tz.longitude)
        datetime_zone = datetime.now(pytz.timezone(zone))
        date_tz = datetime_zone.strftime("%A, %B %d, %Y")
        time_tz = datetime_zone.strftime("%I:%M %p")
        dt_string = datetime.now().strftime("%A, %B %d, %Y")
        if date_tz != dt_string:
            date_tz = datetime_zone.strftime("%A, %B %d")
            speaker.speak(
                text=
                f'The current time in {time_location} is {time_tz}, on {date_tz}.'
            )
        else:
            speaker.speak(
                text=f'The current time in {time_location} is {time_tz}.')
    else:
        if shared.called['report'] or shared.called['time_travel']:
            speaker.speak(
                text=
                f"The current time is, {datetime.now().strftime('%I:%M %p')}.")
            return
        speaker.speak(text=f"{datetime.now().strftime('%I:%M %p')}.")
Exemplo n.º 25
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def main(city, country):
    geolocator = Nominatim(user_agent="cityinfogather")
    tf = TimezoneFinder()
    city_name = city.strip().capitalize().replace(' ', '+')
    country_name = country.strip().capitalize()
    try:
        country = pycountry.countries.get(name=country_name)
        loc = geolocator.geocode(city_name+',' + country_name)
        latitude = loc.latitude
        longitude = loc.longitude
        timezone = tf.timezone_at(lng=longitude, lat=latitude)
        current_time = time(timezone)
        current_time = current_time.strftime('%Y:%m:%d %H:%M:%S')
    except:
        current_time = "Sorry, the Current Time is Not Available :("
    try:
        country_currency = ccy.countryccy(country.alpha_2)
        exchangerate = exchangerates(country_currency)
    except:
        exchangerate = "Sorry, the Exchange Rate is Currently Not Available :("

    temperature, feels_like = weather(city_name)

    return exchangerate, temperature, feels_like, current_time
Exemplo n.º 26
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    def time_aware(self):
        """
        Convert datetime unix_epoch(update.message.date) to specifict UTC
        timezone local, default Asia/Jakarta in parameters construct

        Return: json_datetime = {'date': aware_date,
                                'time': aware_time,
                                'zone': t_zone}
        format date: 2020-07-30 '%Y-%m-%d'
        format time: 24:50:00 '%H:%M:%S'
        format zone: 'continent/city' (str)
        """
        tf = TimezoneFinder()
        tzone_user = tf.timezone_at(lng=self.longi, lat=self.latit)

        try:
            t_utc = utc.localize(self.unix_epoch)
            t_to_user = t_utc.astimezone(timezone(tzone_user))
            fmt_date = '%Y-%m-%d'
            fmt_time = '%H:%M:%S'
            fmt_zone = '%z:%Z'
            aware_time = datetime.strftime(t_to_user, fmt_time)
            aware_date = datetime.strftime(t_to_user, fmt_date)
            # t_zone = datetime.strftime(t_to_user, fmt_zone)

            json_datetime = {
                'date': aware_date,
                'time': aware_time,
                'tzinfo': tzone_user
            }
            finish = json.dumps(json_datetime)

            logger.info(f'Today in datetime USER: {t_to_user}')
        except UnknownTimeZoneError as e:
            logger.info("Unknow Timezone: %s", e)
        return finish
Exemplo n.º 27
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def task_mail():

    url = 'http://api.openweathermap.org/data/2.5/weather?q={}&units=imperial&appid=bdb2fc4dceba425650a3e1fea845179c'
    tf = TimezoneFinder(in_memory=True)
    utc = pytz.utc
    city = 'New York'
    city_weather = requests.get(url.format(city)).json() #request the API data and convert the JSON to Python data types
    now_utc = utc.localize(datetime.utcfromtimestamp(city_weather['dt']))
    weather = {
            'city' : city,
            'temperature' : city_weather['main']['temps'],
            'description' : city_weather['weather'][0]['description'],
            'icon' : city_weather['weather'][0]['icon'],
            ##'tisme' : datetime.fromtimestamp(city_weather['dt']).strftime('%Y-%m-%d'),
            'date' : now_utc.astimezone(timezone(tf.timezone_at(lng=city_weather['coord']['lon'], lat=city_weather['coord']['lat']))).strftime('%Y-%m-%d')
    }

    subject = "Today's weather in NYC"
    message = "Today is " + str(weather["date"])+ ". The weather in " + weather["city"] + " is " + weather["description"] +" with the temperature: " + str(weather["temperature"]) + " °F."
    mail_sent = send_mail(subject,
                          message,
                          '*****@*****.**',
                          ['*****@*****.**','*****@*****.**'])
    return mail_sent
Exemplo n.º 28
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    def handleTime(self, intent, mic):
        print("handleTime")
        print(intent)
        if 'LocationKeyword' in intent['matches']:
            for location in intent['matches']['LocationKeyword']:
                geo = geocoder.osm(location)
                tzf = TimezoneFinder()
                tz = tzf.timezone_at(lng=geo.lng, lat=geo.lat)
                now = datetime.datetime.now(tz=timezone(tz))
                if now.minute == 0:
                    fmt = self.gettext("IT IS {t:%l} {t:%p} IN {l} RIGHT NOW.")
                else:
                    fmt = self.gettext(
                        "IT IS {t:%l}:{t:%M} {t:%p} IN {l} RIGHT NOW.")
                mic.say(fmt.format(l=location, t=now))
        else:
            now = datetime.datetime.now(tz=app_utils.get_timezone())
            if now.minute == 0:
                fmt = self.gettext("IT IS {t:%l} {t:%p}.")
            else:
                fmt = self.gettext("IT IS {t:%l}:{t:%M} {t:%p}.")
            mic.say(fmt.format(t=now))

        return True
Exemplo n.º 29
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def get_local_etc_timezone(latitude, longitude):
    '''
    This function gets the time zone at a given latitude and longitude in 'Etc/GMT' format.
    This time zone format is used in order to avoid issues caused by Daylight Saving Time (DST) (i.e., redundant or
    missing times in regions that use DST).
    However, note that 'Etc/GMT' uses a counter intuitive sign convention, where West of GMT is POSITIVE, not negative.
    So, for example, the time zone for Zurich will be returned as 'Etc/GMT-1'.

    :param latitude: Latitude at the project location
    :param longitude: Longitude at the project location
    '''

    # get the time zone at the given coordinates
    tf = TimezoneFinder()
    time = pytz.timezone(tf.timezone_at(lng=longitude, lat=latitude)).localize(
        datetime.datetime(2011, 1, 1)).strftime('%z')

    # invert sign and return in 'Etc/GMT' format
    if time[0] == '-':
        time_zone = 'Etc/GMT+' + time[2]
    else:
        time_zone = 'Etc/GMT-' + time[2]

    return time_zone
Exemplo n.º 30
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def get_timezone(latitude, longitude):
    #Get today sunrise and sunset
    sun = Sun(latitude, longitude)
    today_sr = int(sun.get_sunrise_time().strftime('%H'))
    today_ss = int(sun.get_sunset_time().strftime('%H'))

    #Get timezone
    tf = TimezoneFinder()
    timezone = tf.timezone_at(lng=longitude, lat=latitude) # returns 'Europe/Berlin'

    #Get time
    tz = pytz.timezone(timezone)
    timezone_now = int(datetime.datetime.now(tz).strftime('%H'))

    logging.info(str(timezone_now))
    logging.info(str(today_sr))
    logging.info(str(today_ss))

    if timezone_now > today_sr and timezone_now < today_ss:
        day = "Day"
    else:
        day = "Night"

    return day
Exemplo n.º 31
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    def create(self, validated_data):
        place = Place(**validated_data)
        review = GeneralReview()
        review.save()
        place.general_review = review

        try:
            latitude, longitude = validated_data.get('address').get(
                'coordinates')
            if latitude and longitude:
                place.timezone = TimezoneFinder().timezone_at(lat=latitude,
                                                              lng=longitude)
        except AttributeError:
            pass

        place.save()
        return place
Exemplo n.º 32
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    def __init__(self, device=DEFAULT_GPS_DEVICE):
        self.serialcom = serial.Serial(device,
                                       baudrate=9600,
                                       bytesize=8,
                                       parity='N',
                                       stopbits=1,
                                       timeout=0.5,
                                       rtscts=0)
        self.gprmc_status = 0
        self.gpgga_status = 0
        self.lat = 0
        self.lon = 0
        self.dataline = ''
        tf = TimezoneFinder()

        duration = 60 / 2  #minutes
        rate_gps = 1
        self.array_gps = [''] * duration * rate_gps
Exemplo n.º 33
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def getTime(object_input):
    extracted = object_input.extract_entities()
    for i in extracted:
        if i[1] == "GPE":
            extracted = i[0]
            geolocator = Nominatim(user_agent="geoapiExercises")
            location = geolocator.geocode(extracted)
            result = TimezoneFinder().timezone_at(lng=location.longitude,
                                                  lat=location.latitude)
            tz = pytz.timezone(result)
            timezone_now = datetime.now(tz)
            return timezone_now.strftime(
                f"The time in {extracted} is %I:%M %p")

    now = datetime.now()
    timeNow = now.strftime("%H:%M")
    d = datetime.strptime(timeNow, "%H:%M")
    return (d.strftime(f"The time is %I:%M %p"))
Exemplo n.º 34
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def adjust_timezones(df, time_col, latitude_col, longitude_col, inplace=False):
    """
    Calculates timezone offset and adjusts date columns accordingly. This is done because GLOBE data uses UTC timezones and it can be useful to have the time adjusted to the local observation time.

    Parameters
    ----------
    df : pd.DataFrame
        The DataFrame to adjust time zones for
    time_col : str
        The column that contains the time zone data
    latitude_col : str
        The column that contains latitude data
    longitude_col : str
        The column that contains longitude data
    inplace : bool, default=False
        Whether to return a new DataFrame. If True then no DataFrame copy is not returned and the operation is performed in place.

    Returns
    -------
    pd.DataFrame or None
        A DataFrame with its time entry adjusted to its local timezone. If `inplace=True` it returns None.
    """
    tf = TimezoneFinder()

    def convert_timezone(time, latitude, longitude):
        utc_tz = pd.to_datetime(time, utc=True)
        local_time_zone = timezone(tf.timezone_at(lng=longitude, lat=latitude))
        return utc_tz.astimezone(local_time_zone)

    time_zone_converter = np.vectorize(convert_timezone)

    if not inplace:
        df = df.copy()

    df[time_col] = time_zone_converter(
        df[time_col].to_numpy(),
        df[latitude_col].to_numpy(),
        df[longitude_col].to_numpy(),
    )

    if not inplace:
        return df
Exemplo n.º 35
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from timezonefinder import TimezoneFinder

TimezoneFinder.using_numba()  # this is a static method returning True or False

tf = TimezoneFinder()
# or
tf = TimezoneFinder(in_memory=True)

longitude, latitude = 13.358, 52.5061
tf.timezone_at(lng=longitude, lat=latitude)  # returns 'Europe/Berlin'
tf.certain_timezone_at(lng=longitude, lat=latitude)  # returns 'Europe/Berlin'

longitude = 12.773955
latitude = 55.578595
tf.closest_timezone_at(lng=longitude, lat=latitude)  # returns 'Europe/Copenhagen'

longitude = 42.1052479
latitude = -16.622686
tf.closest_timezone_at(lng=longitude, lat=latitude, delta_degree=2, exact_computation=True, return_distances=True,
                       force_evaluation=True)

tf.get_geometry(tz_name='Africa/Addis_Ababa', coords_as_pairs=True)
tf.get_geometry(tz_id=400, use_id=True)


# To maximize the chances of getting a result in a Django view it might look like:

def find_timezone(request, lat, lng):
    lat = float(lat)
    lng = float(lng)
Exemplo n.º 36
0
Arquivo: bot.py Projeto: xuanb/msbot
    def on_chat_message(self, msg):
        content_type, chat_type, chat_id = telepot.glance(msg)
        print('Chat:', content_type, chat_type, chat_id)
        if content_type != 'text':
            return self.sendMessage(chat_id, self.data['confused_msg'], reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
        text = msg['text'].lower()
        user = self.db.users.find_one({'chat_id':chat_id})
        if not chat_id in self.current_users:
            self.setUser (chat_id, msg['from'])
            if user:
                self.current_users[chat_id].mapUser(user)
                self.current_users[chat_id].reset = False
            elif not user and self.current_users[chat_id].reset and text not in self.data['start']:
                return self.restart(chat_id)
        if text in self.data['start'] or msg['message_id'] == 0:
            self.current_users[chat_id].reset = True
            self.current_users[chat_id].language_setting_msg = self.language_setting(chat_id)
        elif text in self.data['settings']:
            if not self.current_users[chat_id].reset:
                markup = ReplyKeyboardMarkup(keyboard=self.keyboard_two_col(self.data['setting_keyboard'][self.current_users[chat_id].language]),
                    resize_keyboard=True, one_time_keyboard=True)
                text_msg = self.data['setting_msg'][self.current_users[chat_id].language]
                self.sendMessage(chat_id, text_msg, reply_markup=markup)
            else:
                return self.restart(chat_id)
        elif text in self.data['get_exercise']:
            self.sendExercise(list(self.db.users.find({'chat_id': chat_id})))
        elif text in self.data['get_question']:
            self.questionGathering(list(self.db.users.find({'chat_id': chat_id})))
        elif text in self.data['statistics']:
            text_msg = {}
            en_start = "You started to use the service on {:%d, %b %Y}\n".format(user['_id'].generation_time)
            fi_start = "Aloit käyttää palvelua {:%d, %b %Y}\n".format(user['_id'].generation_time)
            en_recieved_exercises = "You have recieved {0} exercises.\nYou have done {1} exercises.\nAmong the done exercises, you have trained your:\ncore: {2} times\nlegs: {3} times\narms: {4} times\nhands: {5} times.\nAnd there were:\n{6} stretching exercises\n{7} balance exercises\n{8} strength exercises".format(self.db[str(chat_id)].count(),
                                        user['done'], user['core'], user['legs'], user['arms'], user['hands'],
                                        user['stretching'], user['balance'], user['strength'])
            fi_recieved_exercises = "Olet saanut {0} harjoitusta.\nOlet tehnyt {1} harjoitusta.\nTekemäsi harjoitukset ovat treenanneet:\nkeskikroppaa: {2} krt\njalkoja: {3} krt\nkäsivarsia: {4} krt\nkäsiä: {5} krt.\nHarjoitustyypit:\n{6} kpl venyttely\n{7} kpl tasapaino\n{8} kpl voima".format(self.db[str(chat_id)].count(),
                                        user['done'], user['core'], user['legs'], user['arms'], user['hands'],
                                        user['stretching'], user['balance'], user['strength'])
            en_goal = "\nYour current goal is: " + user['goals'][0]['en']
            fi_goal = "\nTämänhetkinen tavoitteesi on: " + user['goals'][0]['fi']

            text_msg['en'] = en_start + en_recieved_exercises + en_goal
            text_msg['fi'] = fi_start + fi_recieved_exercises + fi_goal
            self.sendMessage(chat_id, text_msg[self.current_users[chat_id].language], reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
        elif text in self.data['new_goal'] or msg['text'] == self.data['checkup_keyboard'][self.current_users[chat_id].language][1]:
            self.current_users[chat_id].goal_setting_msg = self.goal_setting(chat_id, self.current_users[chat_id].lowerbody_score, self.current_users[chat_id].upperbody_score)
        elif text in self.data['new_time'] or msg['text'] == self.data['checkup_keyboard'][self.current_users[chat_id].language][2]:
            self.current_users[chat_id].times_setting_msg = self.times_setting(chat_id)
        elif text in self.data['new_condition'] or msg['text'] == self.data['checkup_keyboard'][self.current_users[chat_id].language][3]:
            self.current_users[chat_id].lowerbody_setting_msg = self.lowerbody_setting(chat_id)
        elif text in self.data['new_language']:
            self.current_users[chat_id].language_setting_msg = self.language_setting(chat_id)
        elif text in self.data['new_location']:
            self.current_users[chat_id].location_setting_msg = self.location_setting(chat_id)
        elif msg['text'] == self.data['checkup_keyboard'][self.current_users[chat_id].language][0]:
            text_msg = self.data['checkup_continue_response'][self.current_users[chat_id].language]
            self.sendMessage(chat_id, text_msg, reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
        elif msg['message_id'] - self.current_users[chat_id].language_setting_msg < 5 and text in ['english','finnish']:
            self.current_users[chat_id].language = text[:2]
            self.current_users[chat_id].language_setting_msg = -1000
            if self.current_users[chat_id].reset:
                self.current_users[chat_id].location_setting_msg = self.location_setting(chat_id)
            else:
                text_msg = self.data['language_response'][text[:2]]
                self.sendMessage(chat_id, text_msg, reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
                self.updateUserDB(chat_id)
        elif msg['message_id'] - 1 == self.current_users[chat_id].location_setting_msg:
            g = geocoder.google(text)
            if len(g.latlng) == 0:
                text_msg = self.data['location_fail_response'][self.current_users[chat_id].language]
                self.sendMessage(chat_id, text_msg)
                self.current_users[chat_id].location_setting_msg = self.location_setting(chat_id)
                return
            tf = TimezoneFinder()
            self.current_users[chat_id].location = [g.latlng[1], g.latlng[0]]
            point = (g.latlng[1], g.latlng[0])
            self.current_users[chat_id].timezone = tf.timezone_at(*point)
            if self.current_users[chat_id].reset:
                self.current_users[chat_id].lowerbody_setting_msg = self.lowerbody_setting(chat_id)
            else:
                markup = ReplyKeyboardMarkup(keyboard=[
                    [self.data['time_keyboard'][self.current_users[chat_id].language]],
                ],resize_keyboard=True,one_time_keyboard=True)
                text_msg = self.data['location_response'][self.current_users[chat_id].language]
                self.sendMessage(chat_id, text_msg, reply_markup=markup)
                self.updateUserDB(chat_id)
        elif msg['message_id'] - self.current_users[chat_id].lowerbody_setting_msg < 5 and msg['text'] in self.data['lowerbody_keyboard'][self.current_users[chat_id].language]:
            self.current_users[chat_id].lowerbody_score = self.data['lowerbody_keyboard'][self.current_users[chat_id].language].index(msg['text'])
            self.current_users[chat_id].lowerbody_setting_msg = -1000
            self.current_users[chat_id].upperbody_setting_msg = self.upperbody_setting(chat_id)
        elif msg['message_id'] - self.current_users[chat_id].upperbody_setting_msg < 5 and msg['text'] in self.data['upperbody_keyboard'][self.current_users[chat_id].language]:
            self.current_users[chat_id].upperbody_score = self.data['upperbody_keyboard'][self.current_users[chat_id].language].index(msg['text'])
            self.current_users[chat_id].upperbody_setting_msg = -1000
            if self.current_users[chat_id].reset:
                self.current_users[chat_id].times_setting_msg = self.times_setting(chat_id)
            else:
                text_msg = self.data['condition_response'][self.current_users[chat_id].language]
                self.sendMessage(chat_id, text_msg,reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
                self.updateUserDB(chat_id)
        elif msg['message_id'] - self.current_users[chat_id].times_setting_msg < 5 and text.isdigit():
            self.current_users[chat_id].times = int(text)
            self.current_users[chat_id].times_setting_msg = -1000
            self.current_users[chat_id].time_setting_msg = self.time_setting(chat_id)
            self.current_users[chat_id].timeslots = []
        elif msg['message_id'] - self.current_users[chat_id].time_setting_msg < 10:
            try:
                naive = datetime.strptime ("2016-4-27 " + msg['text'], "%Y-%m-%d %H:%M")
            except ValueError:
                text_msg = self.data['time_fail_response'][self.current_users[chat_id].language]
                return self.sendMessage(chat_id, text_msg)
            local = pytz.timezone (self.current_users[chat_id].timezone)
            local_dt = local.localize(naive, is_dst=None)
            utc_dt = local_dt.astimezone (pytz.utc)
            self.current_users[chat_id].timeslots.append(utc_dt.strftime("%H"))
            if len(self.current_users[chat_id].timeslots) == self.current_users[chat_id].times:
                self.current_users[chat_id].time_setting_msg = - 1000
                if self.current_users[chat_id].reset:
                    self.current_users[chat_id].goal_setting_msg = self.goal_setting(chat_id, self.current_users[chat_id].lowerbody_score, self.current_users[chat_id].upperbody_score)
                else:
                    text_msg = self.data['time_response'][self.current_users[chat_id].language]
                    self.sendMessage(chat_id, text_msg, reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
                    self.updateUserDB(chat_id)
        elif msg['message_id'] - 1 == self.current_users[chat_id].goal_setting_msg:
            goal = self.db.goals.find_one({self.current_users[chat_id].language: msg['text']})
            if not goal:
                text_msg = self.data['goal_fail_response'][self.current_users[chat_id].language]
                self.sendMessage(chat_id, text_msg)
                self.current_users[chat_id].goal_setting_msg = self.goal_setting(chat_id, self.current_users[chat_id].lowerbody_score, self.current_users[chat_id].upperbody_score)
                return
            goal['timestamp'] = datetime.now()
            self.current_users[chat_id].timestamp = datetime.now()
            self.current_users[chat_id].goals.insert(0,goal)
            if self.current_users[chat_id].reset:
                text_msg = self.data['setup_done_response'][self.current_users[chat_id].language]
            else:
                text_msg = self.data['goal_response'][self.current_users[chat_id].language] + text
            self.sendMessage(chat_id, text_msg,reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
            self.updateUserDB(chat_id)
        elif msg['text'] in self.data['exercise_keyboard'][self.current_users[chat_id].language]:
            exercise = list(self.db[str(chat_id)].find().limit(1).sort([('_id',-1)]))[0]
            answered_timestamp = datetime.now()
            if msg['text'] == self.data['exercise_keyboard'][self.current_users[chat_id].language][0]:
                done = 1
                self.db.users.find_one_and_update({'chat_id': chat_id},{ '$inc': {
                            'strength'      : exercise['strength'],
                            'stretching'    : exercise['stretching'],
                            'balance'       : exercise['balance'],
                            'core'          : exercise['core'],
                            'hands'         : exercise['hands'],
                            'arms'          : exercise['arms'],
                            'legs'          : exercise['legs'],
                            'done'          : 1} })
                self.sendMessage(chat_id, self.doing_exercise_response(self.current_users[chat_id].language),reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
                self.sendMessage(chat_id, self.data['exercise_done_response'][self.current_users[chat_id].language])
            else:
                done = 0
                self.sendMessage(chat_id, self.skip_exercise_response(self.current_users[chat_id].language),reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
            self.db[str(chat_id)].update_one({'_id': exercise['_id']}, {'$set':{'answered_timestamp': answered_timestamp, 'done': done}})
            del self.current_users[chat_id]
        elif msg['text'] in self.data['question_keyboard'][self.current_users[chat_id].language]:
            if chat_id in self.users_to_send_msg:
                answer = {}
                answer['chat_id'] = chat_id
                answer['question_content'] = self.users_to_send_msg[chat_id]['question_msg']['text']
                answer['answer'] = msg['text']
                answer['question_id'] = self.users_to_send_msg[chat_id]['question']['_id']
                answer['timestamp'] = datetime.now()
                self.db.answers.insert_one(answer)
                del self.users_to_send_msg[chat_id]
            self.sendMessage(chat_id, self.data['question_resonse'][self.current_users[chat_id].language] + u'\U0001f44d', reply_markup=self.defaultMarkup[self.current_users[chat_id].language])
            del self.current_users[chat_id]
        else:
            response_msg = self.random_response(text)
            self.sendMessage(chat_id, response_msg)
Exemplo n.º 37
0
 else:
     name = "NO_NAME"
 # Coordinates
 gx_track = d.getElementsByTagName('gx:Track')[0]
 gx_coord_element = gx_track.getElementsByTagName('gx:coord')
 if gx_coord_element.length > 0:
     gx_coord = gx_track.getElementsByTagName('gx:coord')[0]
     coords = gx_coord.firstChild.data.split(' ')
     longitude = float(coords[0])
     latitude = float(coords[1])
 else:
     break
 #print("longitude:{0}, latitude:{1}".format(longitude, latitude))
 # Get timezone of the coordinates
 # t = datetime.tzinfo("America/New_York")
 tf = TimezoneFinder()
 tz = tzwhere.tzwhere(shapely=True)
 timezone_str = tf.timezone_at(lng=longitude, lat=latitude)
 # timezone_str = tzwhere.tzNameAt(37.3880961, -5.9823299)
 #print("timezone of current location: {0}".format(timezone_str))
 t = pytz.timezone(timezone_str)
 # begin and end time of the visiting
 timespan = d.getElementsByTagName('TimeSpan')[0]
 begin = timespan.getElementsByTagName('begin')[0].firstChild.data
 begin_datetime = dateutil.parser.parse(begin).astimezone(t)
 end = timespan.getElementsByTagName('end')[0].firstChild.data
 end_datetime = dateutil.parser.parse(end).astimezone(t)
 begin_date = begin_datetime.date()
 begin_time = begin_datetime.time()
 end_date = end_datetime.date()
 end_time = end_datetime.time()