Пример #1
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 def test_is_timeseries_supported(self):
     v = (2, 7, 11)
     self.assertEqual(True, is_timeseries_supported(v))
     v = (2, 7, 12)
     self.assertEqual(True, is_timeseries_supported(v))
     v = (3, 3, 6)
     self.assertEqual(False, is_timeseries_supported(v))
     v = (3, 4, 3)
     self.assertEqual(False, is_timeseries_supported(v))
Пример #2
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 def test_conv_datetime_to_unix_millis(self):
     # This is the "native" Python unix timestamp including
     # microseconds, as float. timedelta "total_seconds()"
     # returns a value like this
     if is_timeseries_supported():
         v = 144379690.987000
         d = datetime.datetime.utcfromtimestamp(v)
         utm = unix_time_millis(d)
         self.assertEqual(utm, 144379690987)
     else:
         pass
Пример #3
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 def test_is_timeseries_supported(self):
     v = (2, 7, 10)
     self.assertEqual(True, is_timeseries_supported(v))
     v = (2, 7, 11)
     self.assertEqual(True, is_timeseries_supported(v))
     v = (2, 7, 12)
     self.assertEqual(True, is_timeseries_supported(v))
     v = (3, 3, 6)
     self.assertEqual(False, is_timeseries_supported(v))
     v = (3, 4, 3)
     self.assertEqual(False, is_timeseries_supported(v))
     v = (3, 4, 4)
     self.assertEqual(True, is_timeseries_supported(v))
     v = (3, 4, 5)
     self.assertEqual(True, is_timeseries_supported(v))
     v = (3, 5, 0)
     self.assertEqual(False, is_timeseries_supported(v))
     v = (3, 5, 1)
     self.assertEqual(True, is_timeseries_supported(v))
Пример #4
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    def test_unix_millis_small_value(self):
        if is_timeseries_supported():
            # this is what would be stored in Riak TS
            v = 1001
            dt = datetime_from_unix_time_millis(v)

            # This is how Python represents the above
            utp = 1.001
            dtp = datetime.datetime.utcfromtimestamp(utp)
            self.assertEqual(dt, dtp)

            utm = unix_time_millis(dt)
            self.assertEqual(v, utm)
        else:
            pass
Пример #5
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    def test_conv_ms_timestamp_to_datetime_and_back(self):
        if is_timeseries_supported():
            # this is what would be stored in Riak TS
            v = 144379690987
            dt = datetime_from_unix_time_millis(v)

            # This is how Python represents the above
            utp = 144379690.987000
            dtp = datetime.datetime.utcfromtimestamp(utp)
            self.assertEqual(dt, dtp)

            utm = unix_time_millis(dt)
            self.assertEqual(v, utm)
        else:
            pass
boolean_a = Atom('boolean')

table_name = 'GeoCheckin'

str0 = 'ascii-0'
str1 = 'ascii-1'

bd0 = six.u('时间序列')
bd1 = six.u('временные ряды')

fiveMins = datetime.timedelta(0, 300)
ts0 = datetime.datetime(2015, 1, 1, 12, 1, 2, 987000)
ts1 = ts0 + fiveMins


@unittest.skipUnless(is_timeseries_supported(), "Timeseries not supported")
class TimeseriesTtbUnitTests(unittest.TestCase):
    def setUp(self):
        self.table = Table(None, table_name)

    def test_encode_data_for_get(self):
        keylist = [
            str_to_bytes('hash1'),
            str_to_bytes('user2'),
            unix_time_millis(ts0)
        ]
        req = tsgetreq_a, str_to_bytes(table_name), keylist, udef_a
        req_test = encode(req)

        test_key = ['hash1', 'user2', ts0]
        c = TtbCodec()
boolean_a = Atom('boolean')

table_name = 'GeoCheckin'

str0 = 'ascii-0'
str1 = 'ascii-1'

bd0 = six.u('时间序列')
bd1 = six.u('временные ряды')

fiveMins = datetime.timedelta(0, 300)
ts0 = datetime.datetime(2015, 1, 1, 12, 1, 2, 987000)
ts1 = ts0 + fiveMins


@unittest.skipUnless(is_timeseries_supported(), "Timeseries not supported")
class TimeseriesTtbUnitTests(unittest.TestCase):
    def setUp(self):
        self.table = Table(None, table_name)

    def test_encode_data_for_get(self):
        keylist = [
            str_to_bytes('hash1'), str_to_bytes('user2'), unix_time_millis(ts0)
        ]
        req = tsgetreq_a, str_to_bytes(table_name), keylist, udef_a
        req_test = encode(req)

        test_key = ['hash1', 'user2', ts0]
        c = TtbCodec()
        msg = c.encode_timeseries_keyreq(self.table, test_key)
        self.assertEqual(req_test, msg.data)