#!/usr/bin/env python import math import unittest import tests import psycopg2 from psycopg2.tz import FixedOffsetTimezone class CommonDatetimeTestsMixin: def execute(self, *args): self.curs.execute(*args) return self.curs.fetchone()[0] def test_parse_date(self): value = self.DATE('2007-01-01', self.curs) self.assertNotEqual(value, None) self.assertEqual(value.year, 2007) self.assertEqual(value.month, 1) self.assertEqual(value.day, 1) def test_parse_null_date(self): value = self.DATE(None, self.curs) self.assertEqual(value, None) def test_parse_incomplete_date(self): self.assertRaises(psycopg2.DataError, self.DATE, '2007', self.curs) self.assertRaises(psycopg2.DataError, self.DATE, '2007-01', self.curs) def test_parse_time(self): value = self.TIME('13:30:29', self.curs) self.assertNotEqual(value, None) self.assertEqual(value.hour, 13) self.assertEqual(value.minute, 30) self.assertEqual(value.second, 29) def test_parse_null_time(self): value = self.TIME(None, self.curs) self.assertEqual(value, None) def test_parse_incomplete_time(self): self.assertRaises(psycopg2.DataError, self.TIME, '13', self.curs) self.assertRaises(psycopg2.DataError, self.TIME, '13:30', self.curs) def test_parse_datetime(self): value = self.DATETIME('2007-01-01 13:30:29', self.curs) self.assertNotEqual(value, None) self.assertEqual(value.year, 2007) self.assertEqual(value.month, 1) self.assertEqual(value.day, 1) self.assertEqual(value.hour, 13) self.assertEqual(value.minute, 30) self.assertEqual(value.second, 29) def test_parse_null_datetime(self): value = self.DATETIME(None, self.curs) self.assertEqual(value, None) def test_parse_incomplete_time(self): self.assertRaises(psycopg2.DataError, self.DATETIME, '2007', self.curs) self.assertRaises(psycopg2.DataError, self.DATETIME, '2007-01', self.curs) self.assertRaises(psycopg2.DataError, self.DATETIME, '2007-01-01 13', self.curs) self.assertRaises(psycopg2.DataError, self.DATETIME, '2007-01-01 13:30', self.curs) def test_parse_null_interval(self): value = self.INTERVAL(None, self.curs) self.assertEqual(value, None) class DatetimeTests(unittest.TestCase, CommonDatetimeTestsMixin): """Tests for the datetime based date handling in psycopg2.""" def setUp(self): self.conn = psycopg2.connect(tests.dsn) self.curs = self.conn.cursor() self.DATE = psycopg2._psycopg.PYDATE self.TIME = psycopg2._psycopg.PYTIME self.DATETIME = psycopg2._psycopg.PYDATETIME self.INTERVAL = psycopg2._psycopg.PYINTERVAL def tearDown(self): self.conn.close() def test_parse_bc_date(self): # datetime does not support BC dates self.assertRaises(ValueError, self.DATE, '00042-01-01 BC', self.curs) def test_parse_bc_datetime(self): # datetime does not support BC dates self.assertRaises(ValueError, self.DATETIME, '00042-01-01 13:30:29 BC', self.curs) def test_parse_time_microseconds(self): value = self.TIME('13:30:29.123456', self.curs) self.assertEqual(value.second, 29) self.assertEqual(value.microsecond, 123456) def test_parse_datetime_microseconds(self): value = self.DATETIME('2007-01-01 13:30:29.123456', self.curs) self.assertEqual(value.second, 29) self.assertEqual(value.microsecond, 123456) def check_time_tz(self, str_offset, offset): from datetime import time, timedelta base = time(13, 30, 29) base_str = '13:30:29' value = self.TIME(base_str + str_offset, self.curs) # Value has time zone info and correct UTC offset. self.assertNotEqual(value.tzinfo, None), self.assertEqual(value.utcoffset(), timedelta(seconds=offset)) # Time portion is correct. self.assertEqual(value.replace(tzinfo=None), base) def test_parse_time_timezone(self): self.check_time_tz("+01", 3600) self.check_time_tz("-01", -3600) self.check_time_tz("+01:15", 4500) self.check_time_tz("-01:15", -4500) # The Python datetime module does not support time zone # offsets that are not a whole number of minutes, so we get an # error here. Check that we are generating an understandable # error message. try: self.check_time_tz("+01:15:42", 4542) except ValueError, exc: self.assertEqual(str(exc), "time zone offset 4542 is not a " "whole number of minutes") else: self.fail("Expected ValueError") try: self.check_time_tz("-01:15:42", -4542) except ValueError, exc: self.assertEqual(str(exc), "time zone offset -4542 is not a " "whole number of minutes") else: self.fail("Expected ValueError") def check_datetime_tz(self, str_offset, offset): from datetime import datetime, timedelta base = datetime(2007, 1, 1, 13, 30, 29) base_str = '2007-01-01 13:30:29' value = self.DATETIME(base_str + str_offset, self.curs) # Value has time zone info and correct UTC offset. self.assertNotEqual(value.tzinfo, None), self.assertEqual(value.utcoffset(), timedelta(seconds=offset)) # Datetime is correct. self.assertEqual(value.replace(tzinfo=None), base) # Conversion to UTC produces the expected offset. UTC = FixedOffsetTimezone(0, "UTC") value_utc = value.astimezone(UTC).replace(tzinfo=None) self.assertEqual(base - value_utc, timedelta(seconds=offset)) def test_parse_datetime_timezone(self): self.check_datetime_tz("+01", 3600) self.check_datetime_tz("-01", -3600) self.check_datetime_tz("+01:15", 4500) self.check_datetime_tz("-01:15", -4500) # The Python datetime module does not support time zone # offsets that are not a whole number of minutes, so we get an # error here. Check that we are generating an understandable # error message. try: self.check_datetime_tz("+01:15:42", 4542) except ValueError, exc: self.assertEqual(str(exc), "time zone offset 4542 is not a " "whole number of minutes") else: self.fail("Expected ValueError") try: self.check_datetime_tz("-01:15:42", -4542) except ValueError, exc: self.assertEqual(str(exc), "time zone offset -4542 is not a " "whole number of minutes") else: self.fail("Expected ValueError") def test_parse_time_no_timezone(self): self.assertEqual(self.TIME("13:30:29", self.curs).tzinfo, None) self.assertEqual(self.TIME("13:30:29.123456", self.curs).tzinfo, None) def test_parse_datetime_no_timezone(self): self.assertEqual( self.DATETIME("2007-01-01 13:30:29", self.curs).tzinfo, None) self.assertEqual( self.DATETIME("2007-01-01 13:30:29.123456", self.curs).tzinfo, None) def test_parse_interval(self): value = self.INTERVAL('42 days 12:34:56.123456', self.curs) self.assertNotEqual(value, None) self.assertEqual(value.days, 42) self.assertEqual(value.seconds, 45296) self.assertEqual(value.microseconds, 123456) def test_parse_negative_interval(self): value = self.INTERVAL('-42 days -12:34:56.123456', self.curs) self.assertNotEqual(value, None) self.assertEqual(value.days, -43) self.assertEqual(value.seconds, 41103) self.assertEqual(value.microseconds, 876544) def test_adapt_date(self): from datetime import date value = self.execute('select (%s)::date::text', [date(2007, 1, 1)]) self.assertEqual(value, '2007-01-01') def test_adapt_time(self): from datetime import time value = self.execute('select (%s)::time::text', [time(13, 30, 29)]) self.assertEqual(value, '13:30:29') def test_adapt_datetime(self): from datetime import datetime value = self.execute('select (%s)::timestamp::text', [datetime(2007, 1, 1, 13, 30, 29)]) self.assertEqual(value, '2007-01-01 13:30:29') def test_adapt_timedelta(self): from datetime import timedelta value = self.execute('select extract(epoch from (%s)::interval)', [timedelta(days=42, seconds=45296, microseconds=123456)]) seconds = math.floor(value) self.assertEqual(seconds, 3674096) self.assertEqual(int(round((value - seconds) * 1000000)), 123456) def test_adapt_megative_timedelta(self): from datetime import timedelta value = self.execute('select extract(epoch from (%s)::interval)', [timedelta(days=-42, seconds=45296, microseconds=123456)]) seconds = math.floor(value) self.assertEqual(seconds, -3583504) self.assertEqual(int(round((value - seconds) * 1000000)), 123456) # Only run the datetime tests if psycopg was compiled with support. if not hasattr(psycopg2._psycopg, 'PYDATETIME'): del DatetimeTests class mxDateTimeTests(unittest.TestCase, CommonDatetimeTestsMixin): """Tests for the mx.DateTime based date handling in psycopg2.""" def setUp(self): self.conn = psycopg2.connect(tests.dsn) self.curs = self.conn.cursor() self.DATE = psycopg2._psycopg.MXDATE self.TIME = psycopg2._psycopg.MXTIME self.DATETIME = psycopg2._psycopg.MXDATETIME self.INTERVAL = psycopg2._psycopg.MXINTERVAL def tearDown(self): self.conn.close() def test_parse_bc_date(self): value = self.DATE('00042-01-01 BC', self.curs) self.assertNotEqual(value, None) # mx.DateTime numbers BC dates from 0 rather than 1. self.assertEqual(value.year, -41) self.assertEqual(value.month, 1) self.assertEqual(value.day, 1) def test_parse_bc_datetime(self): value = self.DATETIME('00042-01-01 13:30:29 BC', self.curs) self.assertNotEqual(value, None) # mx.DateTime numbers BC dates from 0 rather than 1. self.assertEqual(value.year, -41) self.assertEqual(value.month, 1) self.assertEqual(value.day, 1) self.assertEqual(value.hour, 13) self.assertEqual(value.minute, 30) self.assertEqual(value.second, 29) def test_parse_time_microseconds(self): value = self.TIME('13:30:29.123456', self.curs) self.assertEqual(math.floor(value.second), 29) self.assertEqual( int((value.second - math.floor(value.second)) * 1000000), 123456) def test_parse_datetime_microseconds(self): value = self.DATETIME('2007-01-01 13:30:29.123456', self.curs) self.assertEqual(math.floor(value.second), 29) self.assertEqual( int((value.second - math.floor(value.second)) * 1000000), 123456) def test_parse_time_timezone(self): # Time zone information is ignored. from mx.DateTime import Time expected = Time(13, 30, 29) self.assertEqual(expected, self.TIME("13:30:29+01", self.curs)) self.assertEqual(expected, self.TIME("13:30:29-01", self.curs)) self.assertEqual(expected, self.TIME("13:30:29+01:15", self.curs)) self.assertEqual(expected, self.TIME("13:30:29-01:15", self.curs)) self.assertEqual(expected, self.TIME("13:30:29+01:15:42", self.curs)) self.assertEqual(expected, self.TIME("13:30:29-01:15:42", self.curs)) def test_parse_datetime_timezone(self): # Time zone information is ignored. from mx.DateTime import DateTime expected = DateTime(2007, 1, 1, 13, 30, 29) self.assertEqual( expected, self.DATETIME("2007-01-01 13:30:29+01", self.curs)) self.assertEqual( expected, self.DATETIME("2007-01-01 13:30:29-01", self.curs)) self.assertEqual( expected, self.DATETIME("2007-01-01 13:30:29+01:15", self.curs)) self.assertEqual( expected, self.DATETIME("2007-01-01 13:30:29-01:15", self.curs)) self.assertEqual( expected, self.DATETIME("2007-01-01 13:30:29+01:15:42", self.curs)) self.assertEqual( expected, self.DATETIME("2007-01-01 13:30:29-01:15:42", self.curs)) def test_parse_interval(self): value = self.INTERVAL('42 days 05:50:05', self.curs) self.assertNotEqual(value, None) self.assertEqual(value.day, 42) self.assertEqual(value.hour, 5) self.assertEqual(value.minute, 50) self.assertEqual(value.second, 5) def test_adapt_time(self): from mx.DateTime import Time value = self.execute('select (%s)::time::text', [Time(13, 30, 29)]) self.assertEqual(value, '13:30:29') def test_adapt_datetime(self): from mx.DateTime import DateTime value = self.execute('select (%s)::timestamp::text', [DateTime(2007, 1, 1, 13, 30, 29.123456)]) self.assertEqual(value, '2007-01-01 13:30:29.123456') def test_adapt_bc_datetime(self): from mx.DateTime import DateTime value = self.execute('select (%s)::timestamp::text', [DateTime(-41, 1, 1, 13, 30, 29.123456)]) self.assertEqual(value, '0042-01-01 13:30:29.123456 BC') def test_adapt_timedelta(self): from mx.DateTime import DateTimeDeltaFrom value = self.execute('select extract(epoch from (%s)::interval)', [DateTimeDeltaFrom(days=42, seconds=45296.123456)]) seconds = math.floor(value) self.assertEqual(seconds, 3674096) self.assertEqual(int(round((value - seconds) * 1000000)), 123456) def test_adapt_megative_timedelta(self): from mx.DateTime import DateTimeDeltaFrom value = self.execute('select extract(epoch from (%s)::interval)', [DateTimeDeltaFrom(days=-42, seconds=45296.123456)]) seconds = math.floor(value) self.assertEqual(seconds, -3583504) self.assertEqual(int(round((value - seconds) * 1000000)), 123456) # Only run the mx.DateTime tests if psycopg was compiled with support. if not hasattr(psycopg2._psycopg, 'MXDATETIME'): del mxDateTimeTests def test_suite(): return unittest.TestLoader().loadTestsFromName(__name__) if __name__ == "__main__": unittest.main()