Example #1
0
    def setUp(self):
        # make a canned event
        self.msec = 1458768183949
        self.data = {'a': 3, 'b': 6, 'c': 9}
        self.aware_ts = aware_utcnow()

        self.canned_event = self._create_event(self.msec, self.data)
Example #2
0
    def setUp(self):
        self.test_end_ts = aware_utcnow()
        self.test_begin_ts = self.test_end_ts - datetime.timedelta(hours=12)
        self.test_end_ms = ms_from_dt(self.test_end_ts)
        self.test_begin_ms = ms_from_dt(self.test_begin_ts)

        self.canned_range = self._create_time_range(self.test_begin_ts, self.test_end_ts)
Example #3
0
    def setUp(self):
        # make a canned event
        self.msec = 1458768183949
        self.data = {'a': 3, 'b': 6, 'c': 9}
        self.aware_ts = aware_utcnow()

        self.canned_event = self._create_event(self.msec, self.data)
Example #4
0
    def test_is_duplicate(self):
        """Test Event.is_duplicate()"""

        # events

        # pylint: disable=invalid-name
        e_ts = aware_utcnow()

        e1 = Event(e_ts, 23)
        e2 = Event(e_ts, 23)

        self.assertTrue(Event.is_duplicate(e1, e2))
        self.assertTrue(Event.is_duplicate(e1, e2, ignore_values=False))

        e3 = Event(e_ts, 25)

        self.assertTrue(Event.is_duplicate(e1, e3))
        self.assertFalse(Event.is_duplicate(e1, e3, ignore_values=False))

        # indexed events
        ie1 = IndexedEvent('1d-12355', {'value': 42})
        ie2 = IndexedEvent('1d-12355', {'value': 42})

        self.assertTrue(Event.is_duplicate(ie1, ie2))
        self.assertTrue(Event.is_duplicate(ie1, ie2, ignore_values=False))

        ie3 = IndexedEvent('1d-12355', {'value': 44})

        self.assertTrue(Event.is_duplicate(ie1, ie3))
        self.assertFalse(Event.is_duplicate(ie1, ie3, ignore_values=False))

        # time range events
        test_end_ts = aware_utcnow()
        test_begin_ts = test_end_ts - datetime.timedelta(hours=12)
        test_end_ms = ms_from_dt(test_end_ts)
        test_begin_ms = ms_from_dt(test_begin_ts)

        tre1 = TimeRangeEvent((test_begin_ms, test_end_ms), 11)
        tre2 = TimeRangeEvent((test_begin_ms, test_end_ms), 11)

        self.assertTrue(Event.is_duplicate(tre1, tre2))
        self.assertTrue(Event.is_duplicate(tre1, tre2, ignore_values=False))

        tre3 = TimeRangeEvent((test_begin_ms, test_end_ms), 22)

        self.assertTrue(Event.is_duplicate(tre1, tre3))
        self.assertFalse(Event.is_duplicate(tre1, tre3, ignore_values=False))
Example #5
0
    def test_is_duplicate(self):
        """Test Event.is_duplicate()"""

        # events

        # pylint: disable=invalid-name
        e_ts = aware_utcnow()

        e1 = Event(e_ts, 23)
        e2 = Event(e_ts, 23)

        self.assertTrue(Event.is_duplicate(e1, e2))
        self.assertTrue(Event.is_duplicate(e1, e2, ignore_values=False))

        e3 = Event(e_ts, 25)

        self.assertTrue(Event.is_duplicate(e1, e3))
        self.assertFalse(Event.is_duplicate(e1, e3, ignore_values=False))

        # indexed events
        ie1 = IndexedEvent('1d-12355', {'value': 42})
        ie2 = IndexedEvent('1d-12355', {'value': 42})

        self.assertTrue(Event.is_duplicate(ie1, ie2))
        self.assertTrue(Event.is_duplicate(ie1, ie2, ignore_values=False))

        ie3 = IndexedEvent('1d-12355', {'value': 44})

        self.assertTrue(Event.is_duplicate(ie1, ie3))
        self.assertFalse(Event.is_duplicate(ie1, ie3, ignore_values=False))

        # time range events
        test_end_ts = aware_utcnow()
        test_begin_ts = test_end_ts - datetime.timedelta(hours=12)
        test_end_ms = ms_from_dt(test_end_ts)
        test_begin_ms = ms_from_dt(test_begin_ts)

        tre1 = TimeRangeEvent((test_begin_ms, test_end_ms), 11)
        tre2 = TimeRangeEvent((test_begin_ms, test_end_ms), 11)

        self.assertTrue(Event.is_duplicate(tre1, tre2))
        self.assertTrue(Event.is_duplicate(tre1, tre2, ignore_values=False))

        tre3 = TimeRangeEvent((test_begin_ms, test_end_ms), 22)

        self.assertTrue(Event.is_duplicate(tre1, tre3))
        self.assertFalse(Event.is_duplicate(tre1, tre3, ignore_values=False))
Example #6
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    def setUp(self):
        self.test_end_ts = aware_utcnow()
        self.test_begin_ts = self.test_end_ts - datetime.timedelta(hours=12)
        self.test_end_ms = ms_from_dt(self.test_end_ts)
        self.test_begin_ms = ms_from_dt(self.test_begin_ts)

        self.canned_range = self._create_time_range(self.test_begin_ts,
                                                    self.test_end_ts)
Example #7
0
    def setUp(self):
        super(TestTimeRangeEvent, self).setUp()

        self.test_end_ts = aware_utcnow()
        self.test_begin_ts = self.test_end_ts - datetime.timedelta(hours=12)
        self.test_end_ms = ms_from_dt(self.test_end_ts)
        self.test_begin_ms = ms_from_dt(self.test_begin_ts)

        self.canned_time_range = TimeRangeEvent((self.test_begin_ms, self.test_end_ms), 11)
Example #8
0
    def setUp(self):
        super(TestTimeRangeEvent, self).setUp()

        self.test_end_ts = aware_utcnow()
        self.test_begin_ts = self.test_end_ts - datetime.timedelta(hours=12)
        self.test_end_ms = ms_from_dt(self.test_end_ts)
        self.test_begin_ms = ms_from_dt(self.test_begin_ts)

        self.canned_time_range = TimeRangeEvent(
            (self.test_begin_ms, self.test_end_ms), 11)
Example #9
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    def test_nested_merge(self):
        """trigger merging nested data."""

        # pylint: disable=invalid-name
        e_ts = aware_utcnow()

        e1 = Event(e_ts, dict(payload=dict(a=1)))
        e2 = Event(e_ts, dict(payload=dict(b=2)))

        emerge = Event.merge([e1, e2])
        self.assertEqual(emerge[0].get('payload.a'), 1)
        self.assertEqual(emerge[0].get('payload.b'), 2)
Example #10
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    def test_nested_merge(self):
        """trigger merging nested data."""

        # pylint: disable=invalid-name
        e_ts = aware_utcnow()

        e1 = Event(e_ts, dict(payload=dict(a=1)))
        e2 = Event(e_ts, dict(payload=dict(b=2)))

        emerge = Event.merge([e1, e2])
        self.assertEqual(emerge[0].get('payload.a'), 1)
        self.assertEqual(emerge[0].get('payload.b'), 2)
Example #11
0
    def test_at_key_and_dedup(self):
        """test Collection.at_key() and dedup()"""

        # events
        coll = Collection(EVENT_LIST_DUP)

        key_time = dt_from_ms(1429673460000)
        find = coll.at_key(key_time)
        self.assertEqual(len(find), 2)
        self.assertEqual(find[0].get('in'), 3)
        self.assertEqual(find[1].get('in'), 4)

        ddcoll = coll.dedup()
        self.assertEqual(ddcoll.size(), 3)
        self.assertEqual(ddcoll.at(1).get('in'), 4)  # the second dup event

        # indexed events

        coll = Collection(IDX_EVENT_DUP)
        find = coll.at_key('1d-12355')
        self.assertEqual(len(find), 2)
        self.assertEqual(find[0].get('value'), 43)
        self.assertEqual(find[1].get('value'), 44)

        ddcoll = coll.dedup()
        self.assertEqual(ddcoll.size(), 3)
        self.assertEqual(ddcoll.at(1).get('value'), 44)  # the second dup event

        # time range events

        test_end_ts = aware_utcnow()
        test_begin_ts = test_end_ts - datetime.timedelta(hours=12)
        test_end_ms = ms_from_dt(test_end_ts)
        test_begin_ms = ms_from_dt(test_begin_ts)

        dup_tre = [
            TimeRangeEvent((test_begin_ms, test_end_ms), 11),
            TimeRangeEvent((test_begin_ms + 60000, test_end_ms + 60000), 12),
            TimeRangeEvent((test_begin_ms + 60000, test_end_ms + 60000), 13),
            TimeRangeEvent((test_begin_ms + 120000, test_end_ms + 120000), 14),
        ]

        coll = Collection(dup_tre)
        search = TimeRange(test_begin_ms + 60000, test_end_ms + 60000)
        find = coll.at_key(search)
        self.assertEqual(len(find), 2)
        self.assertEqual(find[0].get('value'), 12)
        self.assertEqual(find[1].get('value'), 13)

        ddcoll = coll.dedup()
        self.assertEqual(ddcoll.size(), 3)
        self.assertEqual(ddcoll.at(1).get('value'), 13)  # the second dup event
Example #12
0
    def test_at_key_and_dedup(self):
        """test Collection.at_key() and dedup()"""

        # events
        coll = Collection(EVENT_LIST_DUP)

        key_time = dt_from_ms(1429673460000)
        find = coll.at_key(key_time)
        self.assertEqual(len(find), 2)
        self.assertEqual(find[0].get('in'), 3)
        self.assertEqual(find[1].get('in'), 4)

        ddcoll = coll.dedup()
        self.assertEqual(ddcoll.size(), 3)
        self.assertEqual(ddcoll.at(1).get('in'), 4)  # the second dup event

        # indexed events

        coll = Collection(IDX_EVENT_DUP)
        find = coll.at_key('1d-12355')
        self.assertEqual(len(find), 2)
        self.assertEqual(find[0].get('value'), 43)
        self.assertEqual(find[1].get('value'), 44)

        ddcoll = coll.dedup()
        self.assertEqual(ddcoll.size(), 3)
        self.assertEqual(ddcoll.at(1).get('value'), 44)  # the second dup event

        # time range events

        test_end_ts = aware_utcnow()
        test_begin_ts = test_end_ts - datetime.timedelta(hours=12)
        test_end_ms = ms_from_dt(test_end_ts)
        test_begin_ms = ms_from_dt(test_begin_ts)

        dup_tre = [
            TimeRangeEvent((test_begin_ms, test_end_ms), 11),
            TimeRangeEvent((test_begin_ms + 60000, test_end_ms + 60000), 12),
            TimeRangeEvent((test_begin_ms + 60000, test_end_ms + 60000), 13),
            TimeRangeEvent((test_begin_ms + 120000, test_end_ms + 120000), 14),
        ]

        coll = Collection(dup_tre)
        search = TimeRange(test_begin_ms + 60000, test_end_ms + 60000)
        find = coll.at_key(search)
        self.assertEqual(len(find), 2)
        self.assertEqual(find[0].get('value'), 12)
        self.assertEqual(find[1].get('value'), 13)

        ddcoll = coll.dedup()
        self.assertEqual(ddcoll.size(), 3)
        self.assertEqual(ddcoll.at(1).get('value'), 13)  # the second dup event
Example #13
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    def test_create_collection(self):
        """test collection creation and methods related to internal payload."""

        # event list
        col_1 = Collection(EVENT_LIST)
        self.assertEqual(col_1.size(), 3)
        self.assertEqual(col_1.type(), Event)
        self.assertEqual(col_1.size_valid('in'), 3)

        # copy ctor
        col_2 = Collection(col_1)
        self.assertEqual(col_2.size(), 3)
        self.assertEqual(col_2.type(), Event)
        self.assertEqual(col_2.size_valid('in'), 3)

        # copy ctor - no event copy
        col_3 = Collection(col_2, copy_events=False)
        self.assertEqual(col_3.size(), 0)
        self.assertEqual(col_3.size_valid('in'), 0)

        # pass in an immutable - use a pre- _check()'ed one
        col_4 = Collection(col_1._event_list)  # pylint: disable=protected-access
        self.assertEqual(col_4.size(), 3)
        self.assertEqual(col_4.size_valid('in'), 3)

        # other event types for coverage
        ie1 = IndexedEvent('1d-12355', {'value': 42})
        ie2 = IndexedEvent('1d-12356', {'value': 4242})
        col_5 = Collection([ie1, ie2])
        self.assertEqual(col_5.size(), 2)

        tre = TimeRangeEvent(
            (aware_utcnow(), aware_utcnow() + datetime.timedelta(hours=24)),
            {'in': 100})
        col_6 = Collection([tre])
        self.assertEqual(col_6.size(), 1)
Example #14
0
    def test_create_collection(self):
        """test collection creation and methods related to internal payload."""

        # event list
        col_1 = Collection(EVENT_LIST)
        self.assertEqual(col_1.size(), 3)
        self.assertEqual(col_1.type(), Event)
        self.assertEqual(col_1.size_valid('in'), 3)

        # copy ctor
        col_2 = Collection(col_1)
        self.assertEqual(col_2.size(), 3)
        self.assertEqual(col_2.type(), Event)
        self.assertEqual(col_2.size_valid('in'), 3)

        # copy ctor - no event copy
        col_3 = Collection(col_2, copy_events=False)
        self.assertEqual(col_3.size(), 0)
        self.assertEqual(col_3.size_valid('in'), 0)

        # pass in an immutable - use a pre- _check()'ed one
        col_4 = Collection(col_1._event_list)  # pylint: disable=protected-access
        self.assertEqual(col_4.size(), 3)
        self.assertEqual(col_4.size_valid('in'), 3)

        # other event types for coverage
        ie1 = IndexedEvent('1d-12355', {'value': 42})
        ie2 = IndexedEvent('1d-12356', {'value': 4242})
        col_5 = Collection([ie1, ie2])
        self.assertEqual(col_5.size(), 2)

        tre = TimeRangeEvent(
            (aware_utcnow(), aware_utcnow() + datetime.timedelta(hours=24)),
            {'in': 100})
        col_6 = Collection([tre])
        self.assertEqual(col_6.size(), 1)
Example #15
0
    def test_invalid_constructor_args(self):
        """test invalid constructor args"""

        # test both (two, args) and ([list, arg]) inputs to work different logic

        # unaware datetime input
        u_begin = datetime.datetime.utcnow() - datetime.timedelta(hours=12)
        u_end = datetime.datetime.utcnow()

        with self.assertRaises(TimeRangeException):
            self._create_time_range(u_begin, u_end)
        with self.assertRaises(TimeRangeException):
            self._create_time_range([u_begin, u_end])

        # invalid types - pass in floats
        end = time.time() * 1000
        begin = end - 10000

        with self.assertRaises(TimeRangeException):
            self._create_time_range(begin, end)
        with self.assertRaises(TimeRangeException):
            self._create_time_range([begin, end])

        # type mismatch
        with self.assertRaises(TimeRangeException):
            self._create_time_range((int(begin), aware_utcnow()))
        with self.assertRaises(TimeRangeException):
            self._create_time_range(int(begin), aware_utcnow())

        with self.assertRaises(TimeRangeException):
            self._create_time_range(
                [aware_utcnow() - datetime.timedelta(hours=12),
                 int(end)])
        with self.assertRaises(TimeRangeException):
            self._create_time_range(
                aware_utcnow() - datetime.timedelta(hours=12), int(end))

        # end time before begin time
        bad_begin = aware_utcnow()
        bad_end = aware_utcnow() - datetime.timedelta(hours=12)

        with self.assertRaises(TimeRangeException):
            self._create_time_range(bad_begin, bad_end)
        with self.assertRaises(TimeRangeException):
            self._create_time_range([bad_begin, bad_end])

        with self.assertRaises(TimeRangeException):
            self._create_time_range(ms_from_dt(bad_begin), ms_from_dt(bad_end))
        with self.assertRaises(TimeRangeException):
            self._create_time_range(
                (ms_from_dt(bad_begin), ms_from_dt(bad_end)))

        # wrong number of args
        with self.assertRaises(TimeRangeException):
            TimeRange((begin, end, end))
Example #16
0
    def test_invalid_constructor_args(self):
        """test invalid constructor args"""

        # test both (two, args) and ([list, arg]) inputs to work different logic

        # unaware datetime input
        u_begin = datetime.datetime.utcnow() - datetime.timedelta(hours=12)
        u_end = datetime.datetime.utcnow()

        with self.assertRaises(TimeRangeException):
            self._create_time_range(u_begin, u_end)
        with self.assertRaises(TimeRangeException):
            self._create_time_range([u_begin, u_end])

        # invalid types - pass in floats
        end = time.time() * 1000
        begin = end - 10000

        with self.assertRaises(TimeRangeException):
            self._create_time_range(begin, end)
        with self.assertRaises(TimeRangeException):
            self._create_time_range([begin, end])

        # type mismatch
        with self.assertRaises(TimeRangeException):
            self._create_time_range((int(begin), aware_utcnow()))
        with self.assertRaises(TimeRangeException):
            self._create_time_range(int(begin), aware_utcnow())

        with self.assertRaises(TimeRangeException):
            self._create_time_range([aware_utcnow() - datetime.timedelta(hours=12), int(end)])
        with self.assertRaises(TimeRangeException):
            self._create_time_range(aware_utcnow() - datetime.timedelta(hours=12), int(end))

        # end time before begin time
        bad_begin = aware_utcnow()
        bad_end = aware_utcnow() - datetime.timedelta(hours=12)

        with self.assertRaises(TimeRangeException):
            self._create_time_range(bad_begin, bad_end)
        with self.assertRaises(TimeRangeException):
            self._create_time_range([bad_begin, bad_end])

        with self.assertRaises(TimeRangeException):
            self._create_time_range(ms_from_dt(bad_begin), ms_from_dt(bad_end))
        with self.assertRaises(TimeRangeException):
            self._create_time_range((ms_from_dt(bad_begin), ms_from_dt(bad_end)))

        # wrong number of args
        with self.assertRaises(TimeRangeException):
            TimeRange((begin, end, end))
Example #17
0
    def test_round_trip(self):
        """Test ms -> dt -> ms and dt -> ms -> dt"""

        # ms -> dt -> ms
        to_dt = dt_from_ms(self.ms_reference)
        from_dt = ms_from_dt(to_dt)
        self.assertEqual(from_dt, self.ms_reference)

        # dt -> ms -> dt to test rounding in aware_utcnow()
        now = aware_utcnow()
        to_ms = ms_from_dt(now)
        back_to_dt = dt_from_ms(to_ms)
        self.assertEqual(now, back_to_dt)

        # dt from unixtime -> ms -> dt
        utc = datetime.datetime.utcfromtimestamp(1459442035).replace(tzinfo=pytz.UTC)
        utcms = ms_from_dt(utc)
        back_to_utc = dt_from_ms(utcms)
        self.assertEqual(utc, back_to_utc)
Example #18
0
    def test_round_trip(self):
        """Test ms -> dt -> ms and dt -> ms -> dt"""

        # ms -> dt -> ms
        to_dt = dt_from_ms(self.ms_reference)
        from_dt = ms_from_dt(to_dt)
        self.assertEqual(from_dt, self.ms_reference)

        # dt -> ms -> dt to test rounding in aware_utcnow()
        now = aware_utcnow()
        to_ms = ms_from_dt(now)
        back_to_dt = dt_from_ms(to_ms)
        self.assertEqual(now, back_to_dt)

        # dt from unixtime -> ms -> dt
        utc = datetime.datetime.utcfromtimestamp(1459442035).replace(
            tzinfo=pytz.UTC)
        utcms = ms_from_dt(utc)
        back_to_utc = dt_from_ms(utcms)
        self.assertEqual(utc, back_to_utc)
Example #19
0
    def test_sanitize_dt(self):
        """Test datetime timezone conversion to UTC.
        """

        # aware utc should just go in and out.
        utc = aware_utcnow()
        sanitized_utc = sanitize_dt(utc)
        self.assertTrue(dt_is_aware(sanitized_utc))
        self.assertEqual(utc, sanitized_utc)

        # Sanitize a time zone aware localtime to UTC. The
        # sanitized object

        # Use .localize and not datetime.replace to generate
        # the local date because that doesn't handle DST correctly.
        def get_unrounded_local():
            """get an unrounded local time deal - a datetime
            object with real microsecond precision."""

            pacific = pytz.timezone('US/Pacific')
            local = pacific.localize(datetime.datetime.now())
            if len(str(local.microsecond)) < 6:
                # Prevent a microsecond value that starts with
                # a zero - ie: .023493. This will interefere
                # with the janky string-based rounding that this
                # test is doing for the purposes of this test by
                # becoming 23493.
                time.sleep(.1)
                return get_unrounded_local()
            elif local.microsecond % 1000 != 0:
                # The "good" case - we have a six decimal place
                # microseconds value that has greater than millisecond
                # precision. This is to work sanitizing incoming
                # microsecond values down to milliseconds to have
                # parity with the javascript precision.
                return local
            else:
                # Unlikely - this will happen if the microsecond
                # value is spontaneously exactly at millisecond
                # precision.
                return get_unrounded_local()

        local = get_unrounded_local()

        # testing mode to suppress warnings
        local_utc = sanitize_dt(local, testing=True)

        # objects will not be equal since sanitize is rounding to milliseconds
        self.assertNotEqual(local_utc, local)

        # this is a terrible way to round to milliseconds, but in this
        # case, we are trying to leave the time zone difference intact
        # whereas pypond.util wants to force everything to UTC.
        # But in general DO NOT DO THIS. -MMG

        msec = '{ms}000'.format(ms=str(local.microsecond)[0:3])
        local = local.replace(microsecond=int(msec))

        self.assertEqual(local_utc, local)

        # double check that delta is zero
        local_utc_delta = local_utc - local
        self.assertEqual(int(local_utc_delta.total_seconds()), 0)

        # test sanity check stopping naive datetime objects
        with self.assertRaises(UtilityException):
            sanitize_dt(self.naive)
Example #20
0
    def test_aware(self):
        """Verify test_aware function."""
        self.assertFalse(dt_is_aware(self.naive))

        aware = aware_utcnow()
        self.assertTrue(dt_is_aware(aware))
Example #21
0
    def test_local_info(self):
        """test the code that extracts localized values from a UTC datetime."""
        utcnow = aware_utcnow()
        l_info = localtime_info_from_utc(utcnow)

        self.assertTrue(isinstance(l_info, dict))
Example #22
0
    def test_sanitize_dt(self):
        """Test datetime timezone conversion to UTC.
        """

        # aware utc should just go in and out.
        utc = aware_utcnow()
        sanitized_utc = sanitize_dt(utc)
        self.assertTrue(dt_is_aware(sanitized_utc))
        self.assertEqual(utc, sanitized_utc)

        # Sanitize a time zone aware localtime to UTC. The
        # sanitized object

        # Use .localize and not datetime.replace to generate
        # the local date because that doesn't handle DST correctly.
        def get_unrounded_local():
            """get an unrounded local time deal - a datetime
            object with real microsecond precision."""

            pacific = pytz.timezone('US/Pacific')
            local = pacific.localize(datetime.datetime.now())
            if len(str(local.microsecond)) < 6:
                # Prevent a microsecond value that starts with
                # a zero - ie: .023493. This will interefere
                # with the janky string-based rounding that this
                # test is doing for the purposes of this test by
                # becoming 23493.
                time.sleep(.1)
                return get_unrounded_local()
            elif local.microsecond % 1000 != 0:
                # The "good" case - we have a six decimal place
                # microseconds value that has greater than millisecond
                # precision. This is to work sanitizing incoming
                # microsecond values down to milliseconds to have
                # parity with the javascript precision.
                return local
            else:
                # Unlikely - this will happen if the microsecond
                # value is spontaneously exactly at millisecond
                # precision.
                return get_unrounded_local()

        local = get_unrounded_local()

        # testing mode to suppress warnings
        local_utc = sanitize_dt(local, testing=True)

        # objects will not be equal since sanitize is rounding to milliseconds
        self.assertNotEqual(local_utc, local)

        # this is a terrible way to round to milliseconds, but in this
        # case, we are trying to leave the time zone difference intact
        # whereas pypond.util wants to force everything to UTC.
        # But in general DO NOT DO THIS. -MMG

        msec = '{ms}000'.format(ms=str(local.microsecond)[0:3])
        local = local.replace(microsecond=int(msec))

        self.assertEqual(local_utc, local)

        # double check that delta is zero
        local_utc_delta = local_utc - local
        self.assertEqual(int(local_utc_delta.total_seconds()), 0)

        # test sanity check stopping naive datetime objects
        with self.assertRaises(UtilityException):
            sanitize_dt(self.naive)
Example #23
0
    def test_aware(self):
        """Verify test_aware function."""
        self.assertFalse(dt_is_aware(self.naive))

        aware = aware_utcnow()
        self.assertTrue(dt_is_aware(aware))
Example #24
0
    def test_local_info(self):
        """test the code that extracts localized values from a UTC datetime."""
        utcnow = aware_utcnow()
        l_info = localtime_info_from_utc(utcnow)

        self.assertTrue(isinstance(l_info, dict))
Example #25
0
    def test_fill_event_variants(self):
        """fill time range and indexed events."""

        range_list = [
            TimeRangeEvent((aware_utcnow(),
                            aware_utcnow() + datetime.timedelta(minutes=1)),
                           {'in': 100}),
            TimeRangeEvent((aware_utcnow(),
                            aware_utcnow() + datetime.timedelta(minutes=2)),
                           {'in': None}),
            TimeRangeEvent((aware_utcnow(),
                            aware_utcnow() + datetime.timedelta(minutes=3)),
                           {'in': None}),
            TimeRangeEvent((aware_utcnow(),
                            aware_utcnow() + datetime.timedelta(minutes=4)),
                           {'in': 90}),
            TimeRangeEvent((aware_utcnow(),
                            aware_utcnow() + datetime.timedelta(minutes=5)),
                           {'in': 80}),
            TimeRangeEvent((aware_utcnow(),
                            aware_utcnow() + datetime.timedelta(minutes=6)),
                           {'in': 70}),
        ]

        coll = Collection(range_list)
        # canned series objects
        rts = TimeSeries(dict(name='collection', collection=coll))

        new_rts = rts.fill(field_spec='in')

        self.assertEqual(new_rts.at(1).get('in'), 0)
        self.assertEqual(new_rts.at(2).get('in'), 0)

        # indexed events

        index_list = [
            IndexedEvent('1d-12355', {'value': 42}),
            IndexedEvent('1d-12356', {'value': None}),
            IndexedEvent('1d-12357', {'value': None}),
            IndexedEvent('1d-12358', {'value': 52}),
            IndexedEvent('1d-12359', {'value': 55}),
            IndexedEvent('1d-12360', {'value': 58}),
        ]

        coll = Collection(index_list)

        its = TimeSeries(dict(name='collection', collection=coll))

        new_its = its.fill()

        self.assertEqual(new_its.at(1).get(), 0)
        self.assertEqual(new_its.at(2).get(), 0)
Example #26
0
    def test_fill_event_variants(self):
        """fill time range and indexed events."""

        range_list = [
            TimeRangeEvent(
                (aware_utcnow(), aware_utcnow() + datetime.timedelta(minutes=1)),
                {'in': 100}
            ),
            TimeRangeEvent(
                (aware_utcnow(), aware_utcnow() + datetime.timedelta(minutes=2)),
                {'in': None}
            ),
            TimeRangeEvent(
                (aware_utcnow(), aware_utcnow() + datetime.timedelta(minutes=3)),
                {'in': None}
            ),
            TimeRangeEvent(
                (aware_utcnow(), aware_utcnow() + datetime.timedelta(minutes=4)),
                {'in': 90}
            ),
            TimeRangeEvent(
                (aware_utcnow(), aware_utcnow() + datetime.timedelta(minutes=5)),
                {'in': 80}
            ),
            TimeRangeEvent(
                (aware_utcnow(), aware_utcnow() + datetime.timedelta(minutes=6)),
                {'in': 70}
            ),
        ]

        coll = Collection(range_list)
        # canned series objects
        rts = TimeSeries(
            dict(name='collection', collection=coll))

        new_rts = rts.fill(field_spec='in')

        self.assertEqual(new_rts.at(1).get('in'), 0)
        self.assertEqual(new_rts.at(2).get('in'), 0)

        # indexed events

        index_list = [
            IndexedEvent('1d-12355', {'value': 42}),
            IndexedEvent('1d-12356', {'value': None}),
            IndexedEvent('1d-12357', {'value': None}),
            IndexedEvent('1d-12358', {'value': 52}),
            IndexedEvent('1d-12359', {'value': 55}),
            IndexedEvent('1d-12360', {'value': 58}),
        ]

        coll = Collection(index_list)

        its = TimeSeries(
            dict(name='collection', collection=coll))

        new_its = its.fill()

        self.assertEqual(new_its.at(1).get(), 0)
        self.assertEqual(new_its.at(2).get(), 0)