コード例 #1
0
ファイル: test_imsbltiv1p0.py プロジェクト: saxix/pyslet
class MockTime(object):

    #: the float time (since the epoch) corresponding to 01 January
    #: 1970 00:00:00 UTC the OAuth time origin.
    oauth_origin = float(
        iso.TimePoint(date=iso.Date(century=19, year=70, month=1, day=1),
                      time=iso.Time(hour=0, minute=0, second=0,
                                    zdirection=0)).get_unixtime())

    def __init__(self, base=None):
        if base is None:
            self.now = time.time()
        else:
            self.now = base

    def time(self):
        return self.now

    def tick(self, delta=1.0):
        self.now += delta
コード例 #2
0
ファイル: rfc2616_params.py プロジェクト: sassman/pyslet
    def RequireFullDate(self):
        """Parses a :py:class:`FullDate` instance raising
        :py:class:`SyntaxError` if none is found.

        There are three supported formats as described in the specification::

                "Sun, 06 Nov 1994 08:49:37 GMT"
                "Sunday, 06-Nov-94 08:49:37 GMT"
                "Sun Nov  6 08:49:37 1994"

        The first of these is the preferred format."""
        century = None
        year = None
        month = None
        day = None
        hour = None
        minute = None
        second = None
        dayOfWeek = None
        self.ParseSP()
        token = self.RequireToken("day-of-week").lower()
        dayOfWeek = self._wkdayTable.get(token, None)
        if dayOfWeek is None:
            raise SyntaxError("Unrecognized day of week: %s" % token)
        self.ParseSP()
        if self.ParseSeparator(","):
            self.ParseSP()
            if self.IsToken() and IsDIGITS(self.cWord):
                # Best format 0: "Sun, 06 Nov 1994 08:49:37 GMT" - the
                # preferred format!
                day = self.RequireInteger("date")
                self.ParseSP()
                token = self.RequireToken("month").lower()
                month = self._monthTable.get(token, None)
                if month is None:
                    raise SyntaxError("Unrecognized month: %s" % repr(token))
                self.ParseSP()
                year = self.RequireInteger("year")
                century = year // 100
                year = year % 100
            else:
                # Alternative 1: "Sunday, 06-Nov-94 08:49:37 GMT"
                token = self.RequireToken("DD-MMM-YY")
                sToken = token.split('-')
                if len(sToken) != 3 or not IsDIGITS(sToken[0]) or not IsDIGITS(
                        sToken[2]):
                    raise SyntaxError("Expected DD-MMM-YY, found %s" %
                                      repr(token))
                day = int(sToken[0])
                year = int(sToken[2])
                month = self._monthTable.get(sToken[1].lower(), None)
                if month is None:
                    raise SyntaxError("Unrecognized month: %s" %
                                      repr(sToken[1]))
        else:
            # "Sun Nov  6 08:49:37 1994"
            token = self.RequireToken("month").lower()
            month = self._monthTable.get(token, None)
            if month is None:
                raise SyntaxError("Unrecognized month: %s" % repr(token))
            self.ParseSP()
            day = self.RequireInteger("date")
        self.ParseSP()
        hour = self.RequireInteger("hour")
        self.RequireSeparator(':')
        minute = self.RequireInteger("minute")
        self.RequireSeparator(':')
        second = self.RequireInteger("second")
        self.ParseSP()
        if year is None:
            year = self.RequireInteger("year")
            century = year // 100
            year = year % 100
        else:
            token = self.RequireToken("GMT").upper()
            if token != "GMT":
                raise SyntaxError("Unrecognized timezone: %s" % repr(token))
        if century is None:
            if year < 90:
                century = 20
            else:
                century = 19
        tp = FullDate(date=iso.Date(century=century,
                                    year=year,
                                    month=month + 1,
                                    day=day),
                      time=iso.Time(hour=hour,
                                    minute=minute,
                                    second=second,
                                    zDirection=0))
        d1, d2, d3, d4, dow = tp.date.GetWeekDay()
        if dow != dayOfWeek + 1:
            raise SyntaxError(
                "Day-of-week mismatch, expected %s but found %s" %
                (self.wkday[dow - 1], self.wkday[dayOfWeek]))
        return tp
コード例 #3
0
def LoadDataFromFile(weatherData, f, year, month, day):
    with weatherData.OpenCollection() as collection:
        while True:
            line = f.readline()
            if len(line) == 0:
                break
            elif line[0] == '#':
                continue
            data = line.split()
            if not data:
                continue
            if len(data) < 11:
                data = data + ['*'] * (11 - len(data))
            for i in (1, 3, 5, 7, 8, 10):
                try:
                    data[i] = float(data[i])
                except ValueError:
                    data[i] = None
            for i in (2, 4, 6):
                try:
                    data[i] = int(data[i])
                except ValueError:
                    data[i] = None
            dataPoint = collection.new_entity()
            hour, min = map(int, data[0].split(':'))
            tValue = iso.TimePoint(date=iso.Date(century=year / 100,
                                                 year=year % 100,
                                                 month=month,
                                                 day=day),
                                   time=iso.Time(hour=hour,
                                                 minute=min,
                                                 second=0))
            bst = IsBST(tValue)
            if bst is not False:
                # assume BST for now, add the zone info and then shift to GMT
                tValue = tValue.WithZone(zDirection=1,
                                         zHour=1).ShiftZone(zDirection=0)
            dataPoint['TimePoint'].SetFromValue(tValue)
            dataPoint['Temperature'].SetFromValue(data[1])
            dataPoint['Humidity'].SetFromValue(data[2])
            dataPoint['DewPoint'].SetFromValue(data[3])
            dataPoint['Pressure'].SetFromValue(data[4])
            dataPoint['WindSpeed'].SetFromValue(data[5])
            dataPoint['WindDirection'].SetFromValue(data[6])
            dataPoint['Sun'].SetFromValue(data[7])
            dataPoint['Rain'].SetFromValue(data[8])
            shour, smin = map(int, data[9].split(':'))
            dataPoint['SunRainStart'].SetFromValue(
                iso.Time(hour=shour, minute=smin, second=0))
            dataPoint['WindSpeedMax'].SetFromValue(data[10])
            try:
                collection.insert_entity(dataPoint)
            except edm.ConstraintError:
                if bst is None:
                    # This was an ambiguous entry, the first one is in BST, the
                    # second one is in GMT as the clocks have gone back, so we
                    # shift forward again and then force the zone to GMT
                    tValue = tValue.ShiftZone(zDirection=1,
                                              zHour=1).WithZone(zDirection=0)
                    dataPoint['TimePoint'].SetFromValue(tValue)
                    logging.info("Auto-detecting switch to GMT at: %s",
                                 str(tValue))
                    try:
                        collection.insert_entity(dataPoint)
                    except KeyError:
                        logging.error(
                            "Duplicate data point during BST/GMT switching: %s",
                            str(tValue))
                else:
                    logging.error("Unexpected duplicate data point: %s",
                                  str(tValue))
コード例 #4
0
def load_data_from_file(weather_data, f, year, month, day):
    with weather_data.open() as collection:
        while True:
            line = f.readline().decode('ascii')
            if len(line) == 0 or line.startswith('Date unknown.'):
                break
            elif line[0] == '#':
                continue
            data = line.split()
            if not data:
                continue
            if len(data) < 11:
                data = data + ['*'] * (11 - len(data))
            for i in (1, 3, 5, 7, 8, 10):
                try:
                    data[i] = float(data[i])
                except ValueError:
                    data[i] = None
            for i in (2, 4):
                try:
                    data[i] = int(data[i])
                except ValueError:
                    data[i] = None
            data[6] = data[6].strip()
            data_point = collection.new_entity()
            hour, min = [int(i) for i in data[0].split(':')]
            tvalue = iso.TimePoint(
                date=iso.Date(century=year // 100, year=year %
                              100, month=month, day=day),
                time=iso.Time(hour=hour, minute=min, second=0))
            bst = is_bst(tvalue)
            if bst is not False:
                # assume BST for now, add the zone info and then shift to GMT
                tvalue = tvalue.with_zone(
                    zdirection=1, zhour=1).shift_zone(zdirection=0)
            data_point['TimePoint'].set_from_value(tvalue)
            data_point['Temperature'].set_from_value(data[1])
            data_point['Humidity'].set_from_value(data[2])
            data_point['DewPoint'].set_from_value(data[3])
            data_point['Pressure'].set_from_value(data[4])
            data_point['WindSpeed'].set_from_value(data[5])
            data_point['WindDirection'].set_from_value(data[6])
            data_point['Sun'].set_from_value(data[7])
            data_point['Rain'].set_from_value(data[8])
            shour, smin = [int(i) for i in data[9].split(':')]
            data_point['SunRainStart'].set_from_value(
                iso.Time(hour=shour, minute=smin, second=0))
            data_point['WindSpeedMax'].set_from_value(data[10])
            try:
                collection.insert_entity(data_point)
            except edm.ConstraintError:
                if bst is None:
                    # This was an ambiguous entry, the first one is in
                    # BST, the second one is in GMT as the clocks have
                    # gone back, so we shift forward again and then
                    # force the zone to GMT
                    tvalue = tvalue.shift_zone(
                        zdirection=1, zhour=1).with_zone(zdirection=0)
                    data_point['TimePoint'].set_from_value(tvalue)
                    logging.info(
                        "Auto-detecting switch to GMT at: %s", str(tvalue))
                    try:
                        collection.insert_entity(data_point)
                    except KeyError:
                        logging.error("Duplicate data point during BST/GMT "
                                      "switching: %s", str(tvalue))
                else:
                    logging.error(
                        "Unexpected duplicate data point: %s", str(tvalue))