* tests/__init__.py (test_suite): add date tests to test suite.

* tests/test_dates.py: add tests for date/time typecasting and
	adaption.

	* psycopg/adapter_mxdatetime.c (mxdatetime_str): add support for
	outputting BC dates (which involves switching them to one-based
	dates).  Also remove broken handling of microseconds.

	* psycopg/typecast.c (typecast_parse_date): if the string ends
	with "BC" adjust the year value to be a zero-based BC value as
	used by mx.DateTime (datetime doesn't support BC dates).
	(typecast_parse_time): ignore ' ', 'B' and 'C' in time strings
	rather than treating them as part of the seconds part of the time.
This commit is contained in:
James Henstridge 2008-01-16 01:43:50 +00:00
parent f18881983b
commit 46bf23caf4
5 changed files with 536 additions and 37 deletions

View File

@ -1,3 +1,20 @@
2008-01-16 James Henstridge <james@jamesh.id.au>
* tests/__init__.py (test_suite): add date tests to test suite.
* tests/test_dates.py: add tests for date/time typecasting and
adaption.
* psycopg/adapter_mxdatetime.c (mxdatetime_str): add support for
outputting BC dates (which involves switching them to one-based
dates). Also remove broken handling of microseconds.
* psycopg/typecast.c (typecast_parse_date): if the string ends
with "BC" adjust the year value to be a zero-based BC value as
used by mx.DateTime (datetime doesn't support BC dates).
(typecast_parse_time): ignore ' ', 'B' and 'C' in time strings
rather than treating them as part of the seconds part of the time.
2008-01-14 James Henstridge <james@jamesh.id.au> 2008-01-14 James Henstridge <james@jamesh.id.au>
* psycopg/typecast_array.c (typecast_array_scan): set an initial * psycopg/typecast_array.c (typecast_array_scan): set an initial

View File

@ -43,71 +43,70 @@ extern mxDateTimeModule_APIObject *mxDateTimeP;
static PyObject * static PyObject *
mxdatetime_str(mxdatetimeObject *self) mxdatetime_str(mxdatetimeObject *self)
{ {
PyObject *str = NULL, *res = NULL; mxDateTimeObject *dt;
PyObject *supa, *supb; mxDateTimeDeltaObject *dtd;
char buf[128] = { 0, };
switch (self->type) { switch (self->type) {
case PSYCO_MXDATETIME_DATE: case PSYCO_MXDATETIME_DATE:
str = PyObject_GetAttrString(self->wrapped, "date"); dt = (mxDateTimeObject *)self->wrapped;
if (dt->year >= 1)
PyOS_snprintf(buf, sizeof(buf) - 1, "'%04ld-%02d-%02d'",
dt->year, (int)dt->month, (int)dt->day);
else
PyOS_snprintf(buf, sizeof(buf) - 1, "'%04ld-%02d-%02d BC'",
1 - dt->year, (int)dt->month, (int)dt->day);
break; break;
case PSYCO_MXDATETIME_TIMESTAMP: case PSYCO_MXDATETIME_TIMESTAMP:
/* here we build the right ISO string from date and time */ dt = (mxDateTimeObject *)self->wrapped;
supa = PyObject_GetAttrString(self->wrapped, "date"); if (dt->year >= 1)
supb = PyObject_GetAttrString(self->wrapped, "time"); PyOS_snprintf(buf, sizeof(buf) - 1,
str = PyString_FromFormat("%sT%s", "'%04ld-%02d-%02dT%02d:%02d:%09.6f'",
PyString_AsString(supa), PyString_AsString(supb)); dt->year, (int)dt->month, (int)dt->day,
Py_XDECREF(supa); (int)dt->hour, (int)dt->minute, dt->second);
Py_XDECREF(supb); else
PyOS_snprintf(buf, sizeof(buf) - 1,
"'%04ld-%02d-%02dT%02d:%02d:%09.6f BC'",
1 - dt->year, (int)dt->month, (int)dt->day,
(int)dt->hour, (int)dt->minute, dt->second);
break; break;
case PSYCO_MXDATETIME_TIME: case PSYCO_MXDATETIME_TIME:
case PSYCO_MXDATETIME_INTERVAL: case PSYCO_MXDATETIME_INTERVAL:
str = PyObject_Str(self->wrapped);
/* given the limitation of the mx.DateTime module that uses the same /* given the limitation of the mx.DateTime module that uses the same
type for both time and delta values we need to do some black magic type for both time and delta values we need to do some black magic
and make sure we're not using an adapt()ed interval as a simple and make sure we're not using an adapt()ed interval as a simple
time */ time */
if (PyString_Size(str) > 8 && PyString_AsString(str)[8] == ':') { dtd = (mxDateTimeDeltaObject *)self->wrapped;
mxDateTimeDeltaObject *obj = (mxDateTimeDeltaObject*)self->wrapped; if (0 <= dtd->seconds && dtd->seconds < 24*3600) {
PyOS_snprintf(buf, sizeof(buf) - 1, "'%02d:%02d:%09.6f'",
(int)dtd->hour, (int)dtd->minute, dtd->second);
} else {
double ss = dtd->hour*3600.0 + dtd->minute*60.0 + dtd->second;
char buffer[8]; if (dtd->seconds >= 0)
int i, j, x; PyOS_snprintf(buf, sizeof(buf) - 1, "'%ld days %.6f seconds'",
dtd->day, ss);
double ss = obj->hour*3600.0 + obj->minute*60.0 + obj->second; else
int us = (int)((ss - floor(ss))*1000000); PyOS_snprintf(buf, sizeof(buf) - 1, "'-%ld days -%.6f seconds'",
dtd->day, ss);
for (i=1000000, j=0; i > 0 ; i /= 10) {
x = us/i;
us -= x*i;
buffer[j++] = '0'+x;
}
buffer[j] = '\0';
res = PyString_FromFormat("'%ld days %d.%s seconds'",
obj->day, (int)round(ss), buffer);
} }
break; break;
} }
if (str != NULL && res == NULL) { return PyString_FromString(buf);
res = PyString_FromFormat("'%s'", PyString_AsString(str));
}
Py_XDECREF(str);
return res;
} }
PyObject * static PyObject *
mxdatetime_getquoted(mxdatetimeObject *self, PyObject *args) mxdatetime_getquoted(mxdatetimeObject *self, PyObject *args)
{ {
if (!PyArg_ParseTuple(args, "")) return NULL; if (!PyArg_ParseTuple(args, "")) return NULL;
return mxdatetime_str(self); return mxdatetime_str(self);
} }
PyObject * static PyObject *
mxdatetime_conform(mxdatetimeObject *self, PyObject *args) mxdatetime_conform(mxdatetimeObject *self, PyObject *args)
{ {
PyObject *res, *proto; PyObject *res, *proto;

View File

@ -79,6 +79,13 @@ typecast_parse_date(char* s, char** t, Py_ssize_t* len,
*day = acc; *day = acc;
cz += 1; cz += 1;
} }
/* Is this a BC date? If so, adjust the year value. Note that
* mx.DateTime numbers BC dates from zero rather than one. The
* Python datetime module does not support BC dates at all. */
if (*len >= 2 && s[*len-2] == 'B' && s[*len-1] == 'C')
*year = 1 - (*year);
if (t != NULL) *t = s; if (t != NULL) *t = s;
return cz; return cz;
@ -123,6 +130,12 @@ typecast_parse_time(char* s, char** t, Py_ssize_t* len,
else if (cz == 3) *us = acc; else if (cz == 3) *us = acc;
acc = -1; cz = 4; acc = -1; cz = 4;
break; break;
case ' ':
case 'B':
case 'C':
/* Ignore the " BC" suffix, if passed -- it is handled
* when parsing the date portion. */
break;
default: default:
acc = (acc == -1 ? 0 : acc*10) + ((int)*s - (int)'0'); acc = (acc == -1 ? 0 : acc*10) + ((int)*s - (int)'0');
if (cz == 3) usd += 1; if (cz == 3) usd += 1;

View File

@ -6,6 +6,7 @@ dbname = os.environ.get('PSYCOPG2_TESTDB', 'psycopg2_test')
import bugX000 import bugX000
import extras_dictcursor import extras_dictcursor
import test_dates
import test_psycopg2_dbapi20 import test_psycopg2_dbapi20
import test_quote import test_quote
import test_transaction import test_transaction
@ -15,6 +16,7 @@ def test_suite():
suite = unittest.TestSuite() suite = unittest.TestSuite()
suite.addTest(bugX000.test_suite()) suite.addTest(bugX000.test_suite())
suite.addTest(extras_dictcursor.test_suite()) suite.addTest(extras_dictcursor.test_suite())
suite.addTest(test_dates.test_suite())
suite.addTest(test_psycopg2_dbapi20.test_suite()) suite.addTest(test_psycopg2_dbapi20.test_suite())
suite.addTest(test_quote.test_suite()) suite.addTest(test_quote.test_suite())
suite.addTest(test_transaction.test_suite()) suite.addTest(test_transaction.test_suite())

468
tests/test_dates.py Normal file
View File

@ -0,0 +1,468 @@
#!/usr/bin/env python
import math
import unittest
import psycopg2
import tests
class CommonDatetimeTestsMixin:
def execute(self, *args):
conn = psycopg2.connect("dbname=%s" % tests.dbname)
curs = conn.cursor()
curs.execute(*args)
return curs.fetchone()[0]
def test_parse_date(self):
value = self.DATE('2007-01-01', None)
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, None)
self.assertEqual(value, None)
def test_parse_time(self):
value = self.TIME('13:30:29', None)
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, None)
self.assertEqual(value, None)
def test_parse_datetime(self):
value = self.DATETIME('2007-01-01 13:30:29', None)
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, None)
self.assertEqual(value, None)
def test_parse_null_interval(self):
value = self.INTERVAL(None, None)
self.assertEqual(value, None)
class DatetimeTests(unittest.TestCase, CommonDatetimeTestsMixin):
"""Tests for the datetime based date handling in psycopg2."""
def setUp(self):
self.DATE = psycopg2._psycopg.PYDATE
self.TIME = psycopg2._psycopg.PYTIME
self.DATETIME = psycopg2._psycopg.PYDATETIME
self.INTERVAL = psycopg2._psycopg.PYINTERVAL
def test_parse_bc_date(self):
# datetime does not support BC dates
self.assertRaises(ValueError, self.DATE, '00042-01-01 BC', None)
def test_parse_bc_datetime(self):
# datetime does not support BC dates
self.assertRaises(ValueError, self.DATETIME,
'00042-01-01 13:30:29 BC', None)
def test_parse_time_microseconds(self):
value = self.TIME('13:30:29.123456', None)
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', None)
self.assertEqual(value.second, 29)
self.assertEqual(value.microsecond, 123456)
def test_parse_interval(self):
value = self.INTERVAL('42 days 12:34:56.123456', None)
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', None)
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.DATE = psycopg2._psycopg.MXDATE
self.TIME = psycopg2._psycopg.MXTIME
self.DATETIME = psycopg2._psycopg.MXDATETIME
self.INTERVAL = psycopg2._psycopg.MXINTERVAL
def test_parse_bc_date(self):
value = self.DATE('00042-01-01 BC', None)
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', None)
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', None)
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', None)
self.assertEqual(math.floor(value.second), 29)
self.assertEqual(
int((value.second - math.floor(value.second)) * 1000000), 123456)
def test_parse_interval(self):
value = self.INTERVAL('42 days 05:50:05', None)
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__)
#!/usr/bin/env python
import math
import unittest
import psycopg2
import tests
class CommonDatetimeTestsMixin:
def execute(self, *args):
conn = psycopg2.connect("dbname=%s" % tests.dbname)
curs = conn.cursor()
curs.execute(*args)
return curs.fetchone()[0]
def test_parse_date(self):
value = self.DATE('2007-01-01', None)
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, None)
self.assertEqual(value, None)
def test_parse_time(self):
value = self.TIME('13:30:29', None)
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, None)
self.assertEqual(value, None)
def test_parse_datetime(self):
value = self.DATETIME('2007-01-01 13:30:29', None)
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, None)
self.assertEqual(value, None)
def test_parse_null_interval(self):
value = self.INTERVAL(None, None)
self.assertEqual(value, None)
class DatetimeTests(unittest.TestCase, CommonDatetimeTestsMixin):
"""Tests for the datetime based date handling in psycopg2."""
def setUp(self):
self.DATE = psycopg2._psycopg.PYDATE
self.TIME = psycopg2._psycopg.PYTIME
self.DATETIME = psycopg2._psycopg.PYDATETIME
self.INTERVAL = psycopg2._psycopg.PYINTERVAL
def test_parse_bc_date(self):
# datetime does not support BC dates
self.assertRaises(ValueError, self.DATE, '00042-01-01 BC', None)
def test_parse_bc_datetime(self):
# datetime does not support BC dates
self.assertRaises(ValueError, self.DATETIME,
'00042-01-01 13:30:29 BC', None)
def test_parse_time_microseconds(self):
value = self.TIME('13:30:29.123456', None)
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', None)
self.assertEqual(value.second, 29)
self.assertEqual(value.microsecond, 123456)
def test_parse_interval(self):
value = self.INTERVAL('42 days 12:34:56.123456', None)
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', None)
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.DATE = psycopg2._psycopg.MXDATE
self.TIME = psycopg2._psycopg.MXTIME
self.DATETIME = psycopg2._psycopg.MXDATETIME
self.INTERVAL = psycopg2._psycopg.MXINTERVAL
def test_parse_bc_date(self):
value = self.DATE('00042-01-01 BC', None)
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', None)
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', None)
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', None)
self.assertEqual(math.floor(value.second), 29)
self.assertEqual(
int((value.second - math.floor(value.second)) * 1000000), 123456)
def test_parse_interval(self):
value = self.INTERVAL('42 days 05:50:05', None)
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__)