mirror of
https://github.com/Infinidat/infi.clickhouse_orm.git
synced 2024-11-28 11:43:44 +03:00
739 lines
38 KiB
Python
739 lines
38 KiB
Python
import unittest
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from .base_test_with_data import *
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from .test_querysets import SampleModel
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from datetime import date, datetime, tzinfo, timedelta
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import pytz
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from ipaddress import IPv4Address, IPv6Address
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import logging
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from decimal import Decimal
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from infi.clickhouse_orm.database import ServerError
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from infi.clickhouse_orm.utils import NO_VALUE
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from infi.clickhouse_orm.funcs import F
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class FuncsTestCase(TestCaseWithData):
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def setUp(self):
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super(FuncsTestCase, self).setUp()
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self.database.insert(self._sample_data())
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def _test_qs(self, qs, expected_count):
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logging.info(qs.as_sql())
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count = 0
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for instance in qs:
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count += 1
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logging.info('\t[%d]\t%s' % (count, instance.to_dict()))
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self.assertEqual(count, expected_count)
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self.assertEqual(qs.count(), expected_count)
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def _test_func(self, func, expected_value=NO_VALUE):
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sql = 'SELECT %s AS value' % func.to_sql()
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logging.info(sql)
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try:
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result = list(self.database.select(sql))
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logging.info('\t==> %s', result[0].value if result else '<empty>')
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if expected_value != NO_VALUE:
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print('Comparing %s to %s' % (result[0].value, expected_value))
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self.assertEqual(result[0].value, expected_value)
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return result[0].value if result else None
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except ServerError as e:
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if 'Unknown function' in e.message:
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logging.warning(e.message)
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return # ignore functions that don't exist in the used ClickHouse version
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raise
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def _test_aggr(self, func, expected_value=NO_VALUE):
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qs = Person.objects_in(self.database).aggregate(value=func)
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logging.info(qs.as_sql())
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try:
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result = list(qs)
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logging.info('\t==> %s', result[0].value if result else '<empty>')
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if expected_value != NO_VALUE:
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self.assertEqual(result[0].value, expected_value)
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return result[0].value if result else None
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except ServerError as e:
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if 'Unknown function' in e.message:
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logging.warning(e.message)
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return # ignore functions that don't exist in the used ClickHouse version
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raise
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def test_func_to_sql(self):
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# No args
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self.assertEqual(F('func').to_sql(), 'func()')
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# String args
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self.assertEqual(F('func', "Wendy's", u"Wendy's").to_sql(), "func('Wendy\\'s', 'Wendy\\'s')")
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# Numeric args
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self.assertEqual(F('func', 1, 1.1, Decimal('3.3')).to_sql(), "func(1, 1.1, 3.3)")
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# Date args
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self.assertEqual(F('func', date(2018, 12, 31)).to_sql(), "func(toDate('2018-12-31'))")
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# Datetime args
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self.assertEqual(F('func', datetime(2018, 12, 31)).to_sql(), "func(toDateTime('1546214400'))")
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# Boolean args
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self.assertEqual(F('func', True, False).to_sql(), "func(1, 0)")
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# Timezone args
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self.assertEqual(F('func', pytz.utc).to_sql(), "func('UTC')")
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self.assertEqual(F('func', pytz.timezone('Europe/Athens')).to_sql(), "func('Europe/Athens')")
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# Null args
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self.assertEqual(F('func', None).to_sql(), "func(NULL)")
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# Fields as args
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self.assertEqual(F('func', SampleModel.color).to_sql(), "func(`color`)")
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# Funcs as args
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self.assertEqual(F('func', F('sqrt', 25)).to_sql(), 'func(sqrt(25))')
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# Iterables as args
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x = [1, 'z', F('foo', 17)]
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for y in [x, iter(x)]:
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self.assertEqual(F('func', y, 5).to_sql(), "func([1, 'z', foo(17)], 5)")
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# Tuples as args
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self.assertEqual(F('func', [(1, 2), (3, 4)]).to_sql(), "func([(1, 2), (3, 4)])")
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self.assertEqual(F('func', tuple(x), 5).to_sql(), "func((1, 'z', foo(17)), 5)")
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# Binary operator functions
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self.assertEqual(F.plus(1, 2).to_sql(), "(1 + 2)")
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self.assertEqual(F.lessOrEquals(1, 2).to_sql(), "(1 <= 2)")
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def test_filter_float_field(self):
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qs = Person.objects_in(self.database)
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# Height > 2
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self._test_qs(qs.filter(F.greater(Person.height, 2)), 0)
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self._test_qs(qs.filter(Person.height > 2), 0)
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# Height > 1.61
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self._test_qs(qs.filter(F.greater(Person.height, 1.61)), 96)
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self._test_qs(qs.filter(Person.height > 1.61), 96)
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# Height < 1.61
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self._test_qs(qs.filter(F.less(Person.height, 1.61)), 4)
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self._test_qs(qs.filter(Person.height < 1.61), 4)
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def test_filter_date_field(self):
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qs = Person.objects_in(self.database)
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# People born on the 30th
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self._test_qs(qs.filter(F('equals', F('toDayOfMonth', Person.birthday), 30)), 3)
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self._test_qs(qs.filter(F('toDayOfMonth', Person.birthday) == 30), 3)
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self._test_qs(qs.filter(F.toDayOfMonth(Person.birthday) == 30), 3)
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# People born on Sunday
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self._test_qs(qs.filter(F('equals', F('toDayOfWeek', Person.birthday), 7)), 18)
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self._test_qs(qs.filter(F('toDayOfWeek', Person.birthday) == 7), 18)
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self._test_qs(qs.filter(F.toDayOfWeek(Person.birthday) == 7), 18)
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# People born on 1976-10-01
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self._test_qs(qs.filter(F('equals', Person.birthday, '1976-10-01')), 1)
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self._test_qs(qs.filter(F('equals', Person.birthday, date(1976, 10, 1))), 1)
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self._test_qs(qs.filter(Person.birthday == date(1976, 10, 1)), 1)
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def test_func_as_field_value(self):
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qs = Person.objects_in(self.database)
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self._test_qs(qs.filter(height__gt=F.plus(1, 0.61)), 96)
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self._test_qs(qs.exclude(birthday=F.today()), 100)
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self._test_qs(qs.filter(birthday__between=['1970-01-01', F.today()]), 100)
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def test_in_and_not_in(self):
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qs = Person.objects_in(self.database)
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self._test_qs(qs.filter(Person.first_name.isIn(['Ciaran', 'Elton'])), 4)
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self._test_qs(qs.filter(~Person.first_name.isIn(['Ciaran', 'Elton'])), 96)
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self._test_qs(qs.filter(Person.first_name.isNotIn(['Ciaran', 'Elton'])), 96)
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self._test_qs(qs.exclude(Person.first_name.isIn(['Ciaran', 'Elton'])), 96)
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# In subquery
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subquery = qs.filter(F.startsWith(Person.last_name, 'M')).only(Person.first_name)
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self._test_qs(qs.filter(Person.first_name.isIn(subquery)), 4)
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def test_comparison_operators(self):
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one = F.plus(1, 0)
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two = F.plus(1, 1)
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self._test_func(one > one, 0)
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self._test_func(two > one, 1)
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self._test_func(one >= two, 0)
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self._test_func(one >= one, 1)
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self._test_func(one < one, 0)
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self._test_func(one < two, 1)
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self._test_func(two <= one, 0)
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self._test_func(one <= one, 1)
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self._test_func(one == two, 0)
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self._test_func(one == one, 1)
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self._test_func(one != one, 0)
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self._test_func(one != two, 1)
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def test_arithmetic_operators(self):
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one = F.plus(1, 0)
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two = F.plus(1, 1)
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# +
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self._test_func(one + two, 3)
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self._test_func(one + 2, 3)
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self._test_func(2 + one, 3)
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# -
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self._test_func(one - two, -1)
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self._test_func(one - 2, -1)
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self._test_func(1 - two, -1)
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# *
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self._test_func(one * two, 2)
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self._test_func(one * 2, 2)
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self._test_func(1 * two, 2)
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# /
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self._test_func(one / two, 0.5)
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self._test_func(one / 2, 0.5)
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self._test_func(1 / two, 0.5)
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# //
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self._test_func(one // two, 0)
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self._test_func(two // one, 2)
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self._test_func(one // 2, 0)
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self._test_func(1 // two, 0)
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# %
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self._test_func(one % two, 1)
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self._test_func(one % 2, 1)
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self._test_func(1 % two, 1)
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# sign
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self._test_func(-one, -1)
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self._test_func(--one, 1)
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self._test_func(+one, 1)
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def test_logical_operators(self):
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one = F.plus(1, 0)
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two = F.plus(1, 1)
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# &
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self._test_func(one & two, 1)
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self._test_func(one & two, 1)
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self._test_func(one & 0, 0)
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self._test_func(0 & one, 0)
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# |
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self._test_func(one | two, 1)
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self._test_func(one | 0, 1)
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self._test_func(0 | one, 1)
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# ^
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self._test_func(one ^ one)
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self._test_func(one ^ 0)
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self._test_func(0 ^ one)
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# ~
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self._test_func(~one, 0)
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self._test_func(~~one, 1)
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# compound
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self._test_func(one & 0 | two, 1)
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self._test_func(one & 0 & two, 0)
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self._test_func(one & 0 | 0, 0)
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self._test_func((one | 0) & two, 1)
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def test_date_functions(self):
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d = date(2018, 12, 31)
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dt = datetime(2018, 12, 31, 11, 22, 33)
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self._test_func(F.toYear(d), 2018)
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self._test_func(F.toYear(dt), 2018)
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self._test_func(F.toISOYear(dt, 'Europe/Athens'), 2019) # 2018-12-31 is ISO year 2019, week 1, day 1
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self._test_func(F.toQuarter(d), 4)
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self._test_func(F.toQuarter(dt), 4)
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self._test_func(F.toMonth(d), 12)
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self._test_func(F.toMonth(dt), 12)
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self._test_func(F.toWeek(d), 52)
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self._test_func(F.toWeek(dt), 52)
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self._test_func(F.toISOWeek(d), 1) # 2018-12-31 is ISO year 2019, week 1, day 1
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self._test_func(F.toISOWeek(dt), 1)
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self._test_func(F.toDayOfYear(d), 365)
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self._test_func(F.toDayOfYear(dt), 365)
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self._test_func(F.toDayOfMonth(d), 31)
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self._test_func(F.toDayOfMonth(dt), 31)
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self._test_func(F.toDayOfWeek(d), 1)
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self._test_func(F.toDayOfWeek(dt), 1)
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self._test_func(F.toMinute(dt), 22)
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self._test_func(F.toSecond(dt), 33)
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self._test_func(F.toMonday(d), d)
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self._test_func(F.toMonday(dt), d)
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self._test_func(F.toStartOfMonth(d), date(2018, 12, 1))
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self._test_func(F.toStartOfMonth(dt), date(2018, 12, 1))
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self._test_func(F.toStartOfQuarter(d), date(2018, 10, 1))
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self._test_func(F.toStartOfQuarter(dt), date(2018, 10, 1))
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self._test_func(F.toStartOfYear(d), date(2018, 1, 1))
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self._test_func(F.toStartOfYear(dt), date(2018, 1, 1))
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self._test_func(F.toStartOfMinute(dt), datetime(2018, 12, 31, 11, 22, 0, tzinfo=pytz.utc))
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self._test_func(F.toStartOfFiveMinute(dt), datetime(2018, 12, 31, 11, 20, 0, tzinfo=pytz.utc))
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self._test_func(F.toStartOfFifteenMinutes(dt), datetime(2018, 12, 31, 11, 15, 0, tzinfo=pytz.utc))
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self._test_func(F.toStartOfHour(dt), datetime(2018, 12, 31, 11, 0, 0, tzinfo=pytz.utc))
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self._test_func(F.toStartOfISOYear(dt), date(2018, 12, 31))
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self._test_func(F.toStartOfTenMinutes(dt), datetime(2018, 12, 31, 11, 20, 0, tzinfo=pytz.utc))
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self._test_func(F.toStartOfWeek(dt), date(2018, 12, 30))
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self._test_func(F.toTime(dt), datetime(1970, 1, 2, 11, 22, 33, tzinfo=pytz.utc))
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self._test_func(F.toUnixTimestamp(dt, 'UTC'), int(dt.replace(tzinfo=pytz.utc).timestamp()))
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self._test_func(F.toYYYYMM(d), 201812)
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self._test_func(F.toYYYYMM(dt), 201812)
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self._test_func(F.toYYYYMM(dt, 'Europe/Athens'), 201812)
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self._test_func(F.toYYYYMMDD(d), 20181231)
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self._test_func(F.toYYYYMMDD(dt), 20181231)
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self._test_func(F.toYYYYMMDD(dt, 'Europe/Athens'), 20181231)
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self._test_func(F.toYYYYMMDDhhmmss(d), 20181231000000)
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self._test_func(F.toYYYYMMDDhhmmss(dt, 'Europe/Athens'), 20181231132233)
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self._test_func(F.toRelativeYearNum(dt), 2018)
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self._test_func(F.toRelativeYearNum(dt, 'Europe/Athens'), 2018)
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self._test_func(F.toRelativeMonthNum(dt), 2018 * 12 + 12)
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self._test_func(F.toRelativeMonthNum(dt, 'Europe/Athens'), 2018 * 12 + 12)
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self._test_func(F.toRelativeWeekNum(dt), 2557)
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self._test_func(F.toRelativeWeekNum(dt, 'Europe/Athens'), 2557)
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self._test_func(F.toRelativeDayNum(dt), 17896)
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self._test_func(F.toRelativeDayNum(dt, 'Europe/Athens'), 17896)
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self._test_func(F.toRelativeHourNum(dt), 429515)
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self._test_func(F.toRelativeHourNum(dt, 'Europe/Athens'), 429515)
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self._test_func(F.toRelativeMinuteNum(dt), 25770922)
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self._test_func(F.toRelativeMinuteNum(dt, 'Europe/Athens'), 25770922)
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self._test_func(F.toRelativeSecondNum(dt), 1546255353)
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self._test_func(F.toRelativeSecondNum(dt, 'Europe/Athens'), 1546255353)
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self._test_func(F.timeSlot(dt), datetime(2018, 12, 31, 11, 0, 0, tzinfo=pytz.utc))
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self._test_func(F.timeSlots(dt, 300), [datetime(2018, 12, 31, 11, 0, 0, tzinfo=pytz.utc)])
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self._test_func(F.formatDateTime(dt, '%D %T', 'Europe/Athens'), '12/31/18 13:22:33')
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self._test_func(F.addDays(d, 7), date(2019, 1, 7))
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self._test_func(F.addDays(dt, 7, 'Europe/Athens'))
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self._test_func(F.addHours(dt, 7, 'Europe/Athens'))
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self._test_func(F.addMinutes(dt, 7, 'Europe/Athens'))
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self._test_func(F.addMonths(d, 7), date(2019, 7, 31))
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self._test_func(F.addMonths(dt, 7, 'Europe/Athens'))
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self._test_func(F.addQuarters(d, 7))
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self._test_func(F.addQuarters(dt, 7, 'Europe/Athens'))
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self._test_func(F.addSeconds(d, 7))
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self._test_func(F.addSeconds(dt, 7, 'Europe/Athens'))
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self._test_func(F.addWeeks(d, 7))
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self._test_func(F.addWeeks(dt, 7, 'Europe/Athens'))
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self._test_func(F.addYears(d, 7))
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self._test_func(F.addYears(dt, 7, 'Europe/Athens'))
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self._test_func(F.subtractDays(d, 3))
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self._test_func(F.subtractDays(dt, 3, 'Europe/Athens'))
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self._test_func(F.subtractHours(d, 3))
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self._test_func(F.subtractHours(dt, 3, 'Europe/Athens'))
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self._test_func(F.subtractMinutes(d, 3))
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self._test_func(F.subtractMinutes(dt, 3, 'Europe/Athens'))
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self._test_func(F.subtractMonths(d, 3))
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self._test_func(F.subtractMonths(dt, 3, 'Europe/Athens'))
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self._test_func(F.subtractQuarters(d, 3))
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self._test_func(F.subtractQuarters(dt, 3, 'Europe/Athens'))
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self._test_func(F.subtractSeconds(d, 3))
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self._test_func(F.subtractSeconds(dt, 3, 'Europe/Athens'))
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self._test_func(F.subtractWeeks(d, 3))
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self._test_func(F.subtractWeeks(dt, 3, 'Europe/Athens'))
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self._test_func(F.subtractYears(d, 3))
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self._test_func(F.subtractYears(dt, 3, 'Europe/Athens'))
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self._test_func(F.now() + F.toIntervalSecond(3) + F.toIntervalMinute(3) + F.toIntervalHour(3) + F.toIntervalDay(3))
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self._test_func(F.now() + F.toIntervalWeek(3) + F.toIntervalMonth(3) + F.toIntervalQuarter(3) + F.toIntervalYear(3))
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self._test_func(F.now() + F.toIntervalSecond(3000) - F.toIntervalDay(3000) == F.now() + timedelta(seconds=3000, days=-3000))
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def test_date_functions__utc_only(self):
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if self.database.server_timezone != pytz.utc:
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raise unittest.SkipTest('This test must run with UTC as the server timezone')
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d = date(2018, 12, 31)
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dt = datetime(2018, 12, 31, 11, 22, 33)
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athens_tz = pytz.timezone('Europe/Athens')
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self._test_func(F.toHour(dt), 11)
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self._test_func(F.toStartOfDay(dt), datetime(2018, 12, 31, 0, 0, 0, tzinfo=pytz.utc))
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self._test_func(F.toTime(dt, pytz.utc), datetime(1970, 1, 2, 11, 22, 33, tzinfo=pytz.utc))
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self._test_func(F.toTime(dt, 'Europe/Athens'), athens_tz.localize(datetime(1970, 1, 2, 13, 22, 33)))
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self._test_func(F.toTime(dt, athens_tz), athens_tz.localize(datetime(1970, 1, 2, 13, 22, 33)))
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self._test_func(F.toTimeZone(dt, 'Europe/Athens'), athens_tz.localize(datetime(2018, 12, 31, 13, 22, 33)))
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self._test_func(F.now(), datetime.utcnow().replace(tzinfo=pytz.utc, microsecond=0)) # FIXME this may fail if the timing is just right
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self._test_func(F.today(), datetime.utcnow().date())
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self._test_func(F.yesterday(), datetime.utcnow().date() - timedelta(days=1))
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self._test_func(F.toYYYYMMDDhhmmss(dt), 20181231112233)
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self._test_func(F.formatDateTime(dt, '%D %T'), '12/31/18 11:22:33')
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self._test_func(F.addHours(d, 7), datetime(2018, 12, 31, 7, 0, 0, tzinfo=pytz.utc))
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self._test_func(F.addMinutes(d, 7), datetime(2018, 12, 31, 0, 7, 0, tzinfo=pytz.utc))
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def test_type_conversion_functions(self):
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for f in (F.toUInt8, F.toUInt16, F.toUInt32, F.toUInt64, F.toInt8, F.toInt16, F.toInt32, F.toInt64, F.toFloat32, F.toFloat64):
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self._test_func(f(17), 17)
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self._test_func(f('17'), 17)
|
|
for f in (F.toUInt8OrZero, F.toUInt16OrZero, F.toUInt32OrZero, F.toUInt64OrZero, F.toInt8OrZero, F.toInt16OrZero, F.toInt32OrZero, F.toInt64OrZero, F.toFloat32OrZero, F.toFloat64OrZero):
|
|
self._test_func(f('17'), 17)
|
|
self._test_func(f('a'), 0)
|
|
for f in (F.toDecimal32, F.toDecimal64, F.toDecimal128):
|
|
self._test_func(f(17.17, 2), Decimal('17.17'))
|
|
self._test_func(f('17.17', 2), Decimal('17.17'))
|
|
self._test_func(F.toDate('2018-12-31'), date(2018, 12, 31))
|
|
self._test_func(F.toString(123), '123')
|
|
self._test_func(F.toFixedString('123', 5), '123')
|
|
self._test_func(F.toStringCutToZero('123\0'), '123')
|
|
self._test_func(F.CAST(17, 'String'), '17')
|
|
self._test_func(F.parseDateTimeBestEffort('31/12/2019 10:05AM', 'Europe/Athens'))
|
|
with self.assertRaises(ServerError):
|
|
self._test_func(F.parseDateTimeBestEffort('foo'))
|
|
self._test_func(F.parseDateTimeBestEffortOrNull('31/12/2019 10:05AM', 'Europe/Athens'))
|
|
self._test_func(F.parseDateTimeBestEffortOrNull('foo'), None)
|
|
self._test_func(F.parseDateTimeBestEffortOrZero('31/12/2019 10:05AM', 'Europe/Athens'))
|
|
self._test_func(F.parseDateTimeBestEffortOrZero('foo'), DateTimeField.class_default)
|
|
|
|
def test_type_conversion_functions__utc_only(self):
|
|
if self.database.server_timezone != pytz.utc:
|
|
raise unittest.SkipTest('This test must run with UTC as the server timezone')
|
|
self._test_func(F.toDateTime('2018-12-31 11:22:33'), datetime(2018, 12, 31, 11, 22, 33, tzinfo=pytz.utc))
|
|
self._test_func(F.toDateTime64('2018-12-31 11:22:33.001', 6), datetime(2018, 12, 31, 11, 22, 33, 1000, tzinfo=pytz.utc))
|
|
self._test_func(F.parseDateTimeBestEffort('31/12/2019 10:05AM'), datetime(2019, 12, 31, 10, 5, tzinfo=pytz.utc))
|
|
self._test_func(F.parseDateTimeBestEffortOrNull('31/12/2019 10:05AM'), datetime(2019, 12, 31, 10, 5, tzinfo=pytz.utc))
|
|
self._test_func(F.parseDateTimeBestEffortOrZero('31/12/2019 10:05AM'), datetime(2019, 12, 31, 10, 5, tzinfo=pytz.utc))
|
|
|
|
def test_string_functions(self):
|
|
self._test_func(F.empty(''), 1)
|
|
self._test_func(F.empty('x'), 0)
|
|
self._test_func(F.notEmpty(''), 0)
|
|
self._test_func(F.notEmpty('x'), 1)
|
|
self._test_func(F.length('x'), 1)
|
|
self._test_func(F.lengthUTF8('x'), 1)
|
|
self._test_func(F.lower('Ab'), 'ab')
|
|
self._test_func(F.upper('Ab'), 'AB')
|
|
self._test_func(F.lowerUTF8('Ab'), 'ab')
|
|
self._test_func(F.upperUTF8('Ab'), 'AB')
|
|
self._test_func(F.reverse('Ab'), 'bA')
|
|
self._test_func(F.reverseUTF8('Ab'), 'bA')
|
|
self._test_func(F.concat('Ab', 'Cd', 'Ef'), 'AbCdEf')
|
|
self._test_func(F.substring('123456', 3, 2), '34')
|
|
self._test_func(F.substringUTF8('123456', 3, 2), '34')
|
|
self._test_func(F.appendTrailingCharIfAbsent('Hello', '!'), 'Hello!')
|
|
self._test_func(F.appendTrailingCharIfAbsent('Hello!', '!'), 'Hello!')
|
|
self._test_func(F.convertCharset(F.convertCharset('Hello', 'latin1', 'utf16'), 'utf16', 'latin1'), 'Hello')
|
|
self._test_func(F.startsWith('aaa', 'aa'), True)
|
|
self._test_func(F.startsWith('aaa', 'bb'), False)
|
|
self._test_func(F.endsWith('aaa', 'aa'), True)
|
|
self._test_func(F.endsWith('aaa', 'bb'), False)
|
|
self._test_func(F.trimLeft(' abc '), 'abc ')
|
|
self._test_func(F.trimRight(' abc '), ' abc')
|
|
self._test_func(F.trimBoth(' abc '), 'abc')
|
|
self._test_func(F.CRC32('whoops'), 3361378926)
|
|
|
|
def test_string_search_functions(self):
|
|
self._test_func(F.position('Hello, world!', '!'), 13)
|
|
self._test_func(F.positionCaseInsensitive('Hello, world!', 'hello'), 1)
|
|
self._test_func(F.positionUTF8('Привет, мир!', '!'), 12)
|
|
self._test_func(F.positionCaseInsensitiveUTF8('Привет, мир!', 'Мир'), 9)
|
|
self._test_func(F.like('Hello, world!', '%ll%'), 1)
|
|
self._test_func(F.notLike('Hello, world!', '%ll%'), 0)
|
|
self._test_func(F.match('Hello, world!', '[lmnop]{3}'), 1)
|
|
self._test_func(F.extract('Hello, world!', '[lmnop]{3}'), 'llo')
|
|
self._test_func(F.extractAll('Hello, world!', '[a-z]+'), ['ello', 'world'])
|
|
self._test_func(F.ngramDistance('Hello', 'Hello'), 0)
|
|
self._test_func(F.ngramDistanceCaseInsensitive('Hello', 'hello'), 0)
|
|
self._test_func(F.ngramDistanceUTF8('Hello', 'Hello'), 0)
|
|
self._test_func(F.ngramDistanceCaseInsensitiveUTF8('Hello', 'hello'), 0)
|
|
self._test_func(F.ngramSearch('Hello', 'Hello'), 1)
|
|
self._test_func(F.ngramSearchCaseInsensitive('Hello', 'hello'), 1)
|
|
self._test_func(F.ngramSearchUTF8('Hello', 'Hello'), 1)
|
|
self._test_func(F.ngramSearchCaseInsensitiveUTF8('Hello', 'hello'), 1)
|
|
|
|
def test_base64_functions(self):
|
|
try:
|
|
self._test_func(F.base64Decode(F.base64Encode('Hello')), 'Hello')
|
|
self._test_func(F.tryBase64Decode(F.base64Encode('Hello')), 'Hello')
|
|
self._test_func(F.tryBase64Decode(':-)'))
|
|
except ServerError as e:
|
|
# ClickHouse version that doesn't support these functions
|
|
raise unittest.SkipTest(e.message)
|
|
|
|
def test_replace_functions(self):
|
|
haystack = 'hello'
|
|
self._test_func(F.replace(haystack, 'l', 'L'), 'heLLo')
|
|
self._test_func(F.replaceAll(haystack, 'l', 'L'), 'heLLo')
|
|
self._test_func(F.replaceOne(haystack, 'l', 'L'), 'heLlo')
|
|
self._test_func(F.replaceRegexpAll(haystack, '[eo]', 'X'), 'hXllX')
|
|
self._test_func(F.replaceRegexpOne(haystack, '[eo]', 'X'), 'hXllo')
|
|
self._test_func(F.regexpQuoteMeta('[eo]'), '\\[eo\\]')
|
|
|
|
def test_math_functions(self):
|
|
x = 17
|
|
y = 3
|
|
self._test_func(F.e())
|
|
self._test_func(F.pi())
|
|
self._test_func(F.exp(x))
|
|
self._test_func(F.exp10(x))
|
|
self._test_func(F.exp2(x))
|
|
self._test_func(F.log(x))
|
|
self._test_func(F.log10(x))
|
|
self._test_func(F.log2(x))
|
|
self._test_func(F.ln(x))
|
|
self._test_func(F.sqrt(x))
|
|
self._test_func(F.cbrt(x))
|
|
self._test_func(F.erf(x))
|
|
self._test_func(F.erfc(x))
|
|
self._test_func(F.lgamma(x))
|
|
self._test_func(F.tgamma(x))
|
|
self._test_func(F.sin(x))
|
|
self._test_func(F.cos(x))
|
|
self._test_func(F.tan(x))
|
|
self._test_func(F.asin(x))
|
|
self._test_func(F.acos(x))
|
|
self._test_func(F.atan(x))
|
|
self._test_func(F.pow(x, y))
|
|
self._test_func(F.power(x, y))
|
|
self._test_func(F.intExp10(x))
|
|
self._test_func(F.intExp2(x))
|
|
self._test_func(F.intDivOrZero(x, y))
|
|
self._test_func(F.abs(x))
|
|
self._test_func(F.gcd(x, y))
|
|
self._test_func(F.lcm(x, y))
|
|
|
|
def test_rounding_functions(self):
|
|
x = 22.22222
|
|
n = 3
|
|
self._test_func(F.floor(x), 22)
|
|
self._test_func(F.floor(x, n), 22.222)
|
|
self._test_func(F.ceil(x), 23)
|
|
self._test_func(F.ceil(x, n), 22.223)
|
|
self._test_func(F.ceiling(x), 23)
|
|
self._test_func(F.ceiling(x, n), 22.223)
|
|
self._test_func(F.round(x), 22)
|
|
self._test_func(F.round(x, n), 22.222)
|
|
self._test_func(F.roundAge(x), 18)
|
|
self._test_func(F.roundDown(x, [10, 20, 30]), 20)
|
|
self._test_func(F.roundDuration(x), 10)
|
|
self._test_func(F.roundToExp2(x), 16)
|
|
|
|
def test_array_functions(self):
|
|
arr = [1, 2, 3]
|
|
self._test_func(F.emptyArrayDate())
|
|
self._test_func(F.emptyArrayDateTime())
|
|
self._test_func(F.emptyArrayFloat32())
|
|
self._test_func(F.emptyArrayFloat64())
|
|
self._test_func(F.emptyArrayInt16())
|
|
self._test_func(F.emptyArrayInt32())
|
|
self._test_func(F.emptyArrayInt64())
|
|
self._test_func(F.emptyArrayInt8())
|
|
self._test_func(F.emptyArrayString())
|
|
self._test_func(F.emptyArrayToSingle(F.emptyArrayInt16()), [0])
|
|
self._test_func(F.emptyArrayUInt16())
|
|
self._test_func(F.emptyArrayUInt32())
|
|
self._test_func(F.emptyArrayUInt64())
|
|
self._test_func(F.emptyArrayUInt8())
|
|
self._test_func(F.range(7), list(range(7)))
|
|
self._test_func(F.array(*arr), arr)
|
|
self._test_func(F.arrayConcat([1, 2], [3]), arr)
|
|
self._test_func(F.arrayElement([10, 20, 30], 2), 20)
|
|
self._test_func(F.has(arr, 2), 1)
|
|
self._test_func(F.hasAll(arr, [1, 7]), 0)
|
|
self._test_func(F.hasAny(arr, [1, 7]), 1)
|
|
self._test_func(F.indexOf(arr, 3), 3)
|
|
self._test_func(F.countEqual(arr, 2), 1)
|
|
self._test_func(F.arrayEnumerate(arr))
|
|
self._test_func(F.arrayEnumerateDense(arr))
|
|
self._test_func(F.arrayEnumerateDenseRanked(arr))
|
|
self._test_func(F.arrayEnumerateUniq(arr))
|
|
self._test_func(F.arrayEnumerateUniqRanked(arr))
|
|
self._test_func(F.arrayPopBack(arr), [1, 2])
|
|
self._test_func(F.arrayPopFront(arr), [2, 3])
|
|
self._test_func(F.arrayPushBack(arr, 7), arr + [7])
|
|
self._test_func(F.arrayPushFront(arr, 7), [7] + arr)
|
|
self._test_func(F.arrayResize(arr, 5), [1, 2, 3, 0, 0])
|
|
self._test_func(F.arrayResize(arr, 5, 9), [1, 2, 3, 9, 9])
|
|
self._test_func(F.arraySlice(arr, 2), [2, 3])
|
|
self._test_func(F.arraySlice(arr, 2, 1), [2])
|
|
self._test_func(F.arrayUniq(arr + arr), 3)
|
|
self._test_func(F.arrayJoin(arr))
|
|
self._test_func(F.arrayDifference(arr), [0, 1, 1])
|
|
self._test_func(F.arrayDistinct(arr + arr), arr)
|
|
self._test_func(F.arrayIntersect(arr, [3, 4]), [3])
|
|
self._test_func(F.arrayReduce('min', arr), 1)
|
|
self._test_func(F.arrayReverse(arr), [3, 2, 1])
|
|
|
|
def test_split_and_merge_functions(self):
|
|
self._test_func(F.splitByChar('_', 'a_b_c'), ['a', 'b', 'c'])
|
|
self._test_func(F.splitByString('__', 'a__b__c'), ['a', 'b', 'c'])
|
|
self._test_func(F.arrayStringConcat(['a', 'b', 'c']), 'abc')
|
|
self._test_func(F.arrayStringConcat(['a', 'b', 'c'], '_'), 'a_b_c')
|
|
self._test_func(F.alphaTokens('aaa.bbb.111'), ['aaa', 'bbb'])
|
|
|
|
def test_bit_functions(self):
|
|
x = 17
|
|
y = 4
|
|
z = 5
|
|
self._test_func(F.bitAnd(x, y))
|
|
self._test_func(F.bitNot(x))
|
|
self._test_func(F.bitOr(x, y))
|
|
self._test_func(F.bitRotateLeft(x, y))
|
|
self._test_func(F.bitRotateRight(x, y))
|
|
self._test_func(F.bitShiftLeft(x, y))
|
|
self._test_func(F.bitShiftRight(x, y))
|
|
self._test_func(F.bitTest(x, y))
|
|
self._test_func(F.bitTestAll(x, y))
|
|
self._test_func(F.bitTestAll(x, y, z))
|
|
self._test_func(F.bitTestAny(x, y))
|
|
self._test_func(F.bitTestAny(x, y, z))
|
|
self._test_func(F.bitXor(x, y))
|
|
|
|
def test_bitmap_functions(self):
|
|
self._test_func(F.bitmapToArray(F.bitmapBuild([1, 2, 3])), [1, 2, 3])
|
|
self._test_func(F.bitmapContains(F.bitmapBuild([1, 5, 7, 9]), F.toUInt32(9)), 1)
|
|
self._test_func(F.bitmapHasAny(F.bitmapBuild([1,2,3]), F.bitmapBuild([3,4,5])), 1)
|
|
self._test_func(F.bitmapHasAll(F.bitmapBuild([1,2,3]), F.bitmapBuild([3,4,5])), 0)
|
|
self._test_func(F.bitmapToArray(F.bitmapAnd(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5]))), [3])
|
|
self._test_func(F.bitmapToArray(F.bitmapOr(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5]))), [1, 2, 3, 4, 5])
|
|
self._test_func(F.bitmapToArray(F.bitmapXor(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5]))), [1, 2, 4, 5])
|
|
self._test_func(F.bitmapToArray(F.bitmapAndnot(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5]))), [1, 2])
|
|
self._test_func(F.bitmapCardinality(F.bitmapBuild([1, 2, 3, 4, 5])), 5)
|
|
self._test_func(F.bitmapAndCardinality(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5])), 1)
|
|
self._test_func(F.bitmapOrCardinality(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5])), 5)
|
|
self._test_func(F.bitmapXorCardinality(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5])), 4)
|
|
self._test_func(F.bitmapAndnotCardinality(F.bitmapBuild([1, 2, 3]), F.bitmapBuild([3, 4, 5])), 2)
|
|
|
|
def test_hash_functions(self):
|
|
args = ['x', 'y', 'z']
|
|
x = 17
|
|
s = 'hello'
|
|
url = 'http://example.com/a/b/c/d'
|
|
self._test_func(F.hex(F.MD5(s)))
|
|
self._test_func(F.hex(F.sipHash128(s)))
|
|
self._test_func(F.hex(F.cityHash64(*args)))
|
|
self._test_func(F.hex(F.intHash32(x)))
|
|
self._test_func(F.hex(F.intHash64(x)))
|
|
self._test_func(F.hex(F.SHA1(s)))
|
|
self._test_func(F.hex(F.SHA224(s)))
|
|
self._test_func(F.hex(F.SHA256(s)))
|
|
self._test_func(F.hex(F.URLHash(url)))
|
|
self._test_func(F.hex(F.URLHash(url, 3)))
|
|
self._test_func(F.hex(F.farmHash64(*args)))
|
|
self._test_func(F.javaHash(s))
|
|
self._test_func(F.hiveHash(s))
|
|
self._test_func(F.hex(F.metroHash64(*args)))
|
|
self._test_func(F.jumpConsistentHash(x, 3))
|
|
self._test_func(F.hex(F.murmurHash2_32(*args)))
|
|
self._test_func(F.hex(F.murmurHash2_64(*args)))
|
|
self._test_func(F.hex(F.murmurHash3_32(*args)))
|
|
self._test_func(F.hex(F.murmurHash3_64(*args)))
|
|
self._test_func(F.hex(F.murmurHash3_128(s)))
|
|
self._test_func(F.hex(F.xxHash32(*args)))
|
|
self._test_func(F.hex(F.xxHash64(*args)))
|
|
if self.database.server_version >= (18, 1):
|
|
self._test_func(F.hex(F.halfMD5(*args)))
|
|
self._test_func(F.hex(F.sipHash64(*args)))
|
|
|
|
def test_rand_functions(self):
|
|
self._test_func(F.rand())
|
|
self._test_func(F.rand(17))
|
|
self._test_func(F.rand64())
|
|
self._test_func(F.rand64(17))
|
|
if self.database.server_version >= (19, 15): # buggy in older versions
|
|
self._test_func(F.randConstant())
|
|
self._test_func(F.randConstant(17))
|
|
|
|
def test_encoding_functions(self):
|
|
self._test_func(F.hex(F.unhex('0FA1')), '0FA1')
|
|
self._test_func(F.bitmaskToArray(17))
|
|
self._test_func(F.bitmaskToList(18))
|
|
|
|
def test_uuid_functions(self):
|
|
from uuid import UUID
|
|
uuid = self._test_func(F.generateUUIDv4())
|
|
self.assertEqual(type(uuid), UUID)
|
|
s = str(uuid)
|
|
self._test_func(F.toUUID(s), uuid)
|
|
self._test_func(F.UUIDNumToString(F.UUIDStringToNum(s)), s)
|
|
|
|
def test_ip_funcs(self):
|
|
self._test_func(F.IPv4NumToString(F.toUInt32(1)), '0.0.0.1')
|
|
self._test_func(F.IPv4NumToStringClassC(F.toUInt32(1)), '0.0.0.xxx')
|
|
self._test_func(F.IPv4StringToNum('0.0.0.17'), 17)
|
|
self._test_func(F.IPv6NumToString(F.IPv4ToIPv6(F.IPv4StringToNum('192.168.0.1'))), '::ffff:192.168.0.1')
|
|
self._test_func(F.IPv6NumToString(F.IPv6StringToNum('2a02:6b8::11')), '2a02:6b8::11')
|
|
self._test_func(F.toIPv4('10.20.30.40'), IPv4Address('10.20.30.40'))
|
|
self._test_func(F.toIPv6('2001:438:ffff::407d:1bc1'), IPv6Address('2001:438:ffff::407d:1bc1'))
|
|
self._test_func(F.IPv4CIDRToRange(F.toIPv4('192.168.5.2'), 16),
|
|
[IPv4Address('192.168.0.0'), IPv4Address('192.168.255.255')])
|
|
self._test_func(F.IPv6CIDRToRange(F.toIPv6('2001:0db8:0000:85a3:0000:0000:ac1f:8001'), 32),
|
|
[IPv6Address('2001:db8::'), IPv6Address('2001:db8:ffff:ffff:ffff:ffff:ffff:ffff')])
|
|
|
|
def test_aggregate_funcs(self):
|
|
self._test_aggr(F.any(Person.first_name))
|
|
self._test_aggr(F.anyHeavy(Person.first_name))
|
|
self._test_aggr(F.anyLast(Person.first_name))
|
|
self._test_aggr(F.argMin(Person.first_name, Person.height))
|
|
self._test_aggr(F.argMax(Person.first_name, Person.height))
|
|
self._test_aggr(F.round(F.avg(Person.height), 4), sum(p.height for p in self._sample_data()) / 100)
|
|
self._test_aggr(F.corr(Person.height, Person.height), 1)
|
|
self._test_aggr(F.count(), 100)
|
|
self._test_aggr(F.round(F.covarPop(Person.height, Person.height), 2), 0)
|
|
self._test_aggr(F.round(F.covarSamp(Person.height, Person.height), 2), 0)
|
|
self._test_aggr(F.kurtPop(Person.height))
|
|
self._test_aggr(F.kurtSamp(Person.height))
|
|
self._test_aggr(F.min(Person.height), 1.59)
|
|
self._test_aggr(F.max(Person.height), 1.80)
|
|
self._test_aggr(F.skewPop(Person.height))
|
|
self._test_aggr(F.skewSamp(Person.height))
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self._test_aggr(F.round(F.sum(Person.height), 4), sum(p.height for p in self._sample_data()))
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self._test_aggr(F.uniq(Person.first_name, Person.last_name), 100)
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self._test_aggr(F.uniqExact(Person.first_name, Person.last_name), 100)
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self._test_aggr(F.uniqHLL12(Person.first_name, Person.last_name), 99)
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self._test_aggr(F.varPop(Person.height))
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self._test_aggr(F.varSamp(Person.height))
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def test_aggregate_funcs__or_default(self):
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self.database.raw('TRUNCATE TABLE person')
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self._test_aggr(F.countOrDefault(), 0)
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self._test_aggr(F.maxOrDefault(Person.height), 0)
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def test_aggregate_funcs__or_null(self):
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self.database.raw('TRUNCATE TABLE person')
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self._test_aggr(F.countOrNull(), None)
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self._test_aggr(F.maxOrNull(Person.height), None)
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def test_aggregate_funcs__if(self):
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self._test_aggr(F.argMinIf(Person.first_name, Person.height, Person.last_name > 'H'))
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self._test_aggr(F.countIf(Person.last_name > 'H'), 57)
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self._test_aggr(F.minIf(Person.height, Person.last_name > 'H'), 1.6)
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|
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def test_aggregate_funcs__or_default_if(self):
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self._test_aggr(F.argMinOrDefaultIf(Person.first_name, Person.height, Person.last_name > 'Z'))
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self._test_aggr(F.countOrDefaultIf(Person.last_name > 'Z'), 0)
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self._test_aggr(F.minOrDefaultIf(Person.height, Person.last_name > 'Z'), 0)
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|
|
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def test_aggregate_funcs__or_null_if(self):
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self._test_aggr(F.argMinOrNullIf(Person.first_name, Person.height, Person.last_name > 'Z'))
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self._test_aggr(F.countOrNullIf(Person.last_name > 'Z'), None)
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self._test_aggr(F.minOrNullIf(Person.height, Person.last_name > 'Z'), None)
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|
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def test_quantile_funcs(self):
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cond = Person.last_name > 'H'
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weight_expr = F.toUInt32(F.round(Person.height))
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# Quantile
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self._test_aggr(F.quantile(0.9)(Person.height))
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self._test_aggr(F.quantileOrDefault(0.9)(Person.height))
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self._test_aggr(F.quantileOrNull(0.9)(Person.height))
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self._test_aggr(F.quantileIf(0.9)(Person.height, cond))
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self._test_aggr(F.quantileOrDefaultIf(0.9)(Person.height, cond))
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self._test_aggr(F.quantileOrNullIf(0.9)(Person.height, cond))
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|
self._test_aggr(F.quantileDeterministic(0.9)(Person.height, 17))
|
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self._test_aggr(F.quantileExact(0.9)(Person.height))
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self._test_aggr(F.quantileExactOrDefault(0.9)(Person.height))
|
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# Quantile weighted
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self._test_aggr(F.quantileExactWeighted(0.9)(Person.height, weight_expr))
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self._test_aggr(F.quantileExactWeightedOrNull(0.9)(Person.height, weight_expr))
|
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self._test_aggr(F.quantileTiming(0.9)(Person.height))
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|
self._test_aggr(F.quantileTimingIf(0.9)(Person.height, cond))
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self._test_aggr(F.quantileTimingWeighted(0.9)(Person.height, weight_expr))
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|
self._test_aggr(F.quantileTimingWeightedOrDefaultIf(0.9)(Person.height, weight_expr, cond))
|
|
self._test_aggr(F.quantileTDigest(0.9)(Person.height))
|
|
self._test_aggr(F.quantileTDigestOrNullIf(0.9)(Person.height, cond))
|
|
self._test_aggr(F.quantileTDigestWeighted(0.9)(Person.height, weight_expr))
|
|
# Quantiles
|
|
self._test_aggr(F.quantiles(0.9, 0.95, 0.99)(Person.height))
|
|
self._test_aggr(F.quantilesDeterministic(0.9, 0.95, 0.99)(Person.height, 17))
|
|
self._test_aggr(F.quantilesExact(0.9, 0.95, 0.99)(Person.height))
|
|
self._test_aggr(F.quantilesExactWeighted(0.9, 0.95, 0.99)(Person.height, weight_expr))
|
|
self._test_aggr(F.quantilesTiming(0.9, 0.95, 0.99)(Person.height))
|
|
self._test_aggr(F.quantilesTimingIf(0.9, 0.95, 0.99)(Person.height, cond))
|
|
self._test_aggr(F.quantilesTimingWeighted(0.9, 0.95, 0.99)(Person.height, weight_expr))
|
|
self._test_aggr(F.quantilesTimingWeightedOrDefaultIf(0.9, 0.95, 0.99)(Person.height, weight_expr, cond))
|
|
self._test_aggr(F.quantilesTDigest(0.9, 0.95, 0.99)(Person.height))
|
|
self._test_aggr(F.quantilesTDigestIf(0.9, 0.95, 0.99)(Person.height, cond))
|
|
self._test_aggr(F.quantilesTDigestWeighted(0.9, 0.95, 0.99)(Person.height, weight_expr))
|
|
|
|
def test_top_k_funcs(self):
|
|
self._test_aggr(F.topK(3)(Person.height))
|
|
self._test_aggr(F.topKOrDefault(3)(Person.height))
|
|
self._test_aggr(F.topKIf(3)(Person.height, Person.last_name > 'H'))
|
|
self._test_aggr(F.topKOrDefaultIf(3)(Person.height, Person.last_name > 'H'))
|
|
weight_expr = F.toUInt32(F.round(Person.height))
|
|
self._test_aggr(F.topKWeighted(3)(Person.height, weight_expr))
|
|
self._test_aggr(F.topKWeightedOrDefault(3)(Person.height, weight_expr))
|
|
self._test_aggr(F.topKWeightedIf(3)(Person.height, weight_expr, Person.last_name > 'H'))
|
|
self._test_aggr(F.topKWeightedOrDefaultIf(3)(Person.height, weight_expr, Person.last_name > 'H'))
|
|
|
|
def test_null_funcs(self):
|
|
self._test_func(F.ifNull(17, 18), 17)
|
|
self._test_func(F.ifNull(None, 18), 18)
|
|
self._test_func(F.nullIf(17, 18), 17)
|
|
self._test_func(F.nullIf(18, 18), None)
|
|
self._test_func(F.isNotNull(17), 1)
|
|
self._test_func(F.isNull(17), 0)
|
|
self._test_func(F.coalesce(None, None, 17, 18), 17)
|
|
|
|
def test_misc_funcs(self):
|
|
self._test_func(F.ifNotFinite(17, 18), 17)
|
|
self._test_func(F.isFinite(17), 1)
|
|
self._test_func(F.isInfinite(17), 0)
|
|
self._test_func(F.isNaN(17), 0)
|
|
self._test_func(F.least(17, 18), 17)
|
|
self._test_func(F.greatest(17, 18), 18)
|