/
TestFrenchLocale.py
130 lines (100 loc) · 4.09 KB
/
TestFrenchLocale.py
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# -*- coding: utf-8 -*-
"""
Test parsing of simple date and times using the French locale
Note: requires PyICU
"""
from __future__ import unicode_literals
import sys
import time
import datetime
import parsedatetime as pdt
from parsedatetime.pdt_locales import get_icu
from . import utils
if sys.version_info < (2, 7):
import unittest2 as unittest
else:
import unittest
class test(unittest.TestCase):
@utils.assertEqualWithComparator
def assertExpectedResult(self, result, check, **kwargs):
return utils.compareResultByTimeTuplesAndFlags(result, check, **kwargs)
def setUp(self):
locale = 'fr_FR'
self.ptc = pdt.Constants(locale, usePyICU=False)
self.cal = pdt.Calendar(self.ptc)
(self.yr, self.mth, self.dy, self.hr,
self.mn, self.sec, self.wd, self.yd, self.isdst) = time.localtime()
if self.ptc.localeID != locale:
raise unittest.SkipTest(
'Locale not set to fr_FR - check if PyICU is installed')
def testTimes(self):
start = datetime.datetime(
self.yr, self.mth, self.dy,
self.hr, self.mn, self.sec).timetuple()
target = datetime.datetime(
self.yr, self.mth, self.dy, 23, 0, 0).timetuple()
self.assertExpectedResult(
self.cal.parse('2300', start), (target, 2))
self.assertExpectedResult(
self.cal.parse('23:00', start), (target, 2))
target = datetime.datetime(
self.yr, self.mth, self.dy, 11, 0, 0).timetuple()
self.assertExpectedResult(
self.cal.parse('1100', start), (target, 2))
self.assertExpectedResult(
self.cal.parse('11:00', start), (target, 2))
target = datetime.datetime(
self.yr, self.mth, self.dy, 7, 30, 0).timetuple()
self.assertExpectedResult(
self.cal.parse('730', start), (target, 2))
self.assertExpectedResult(
self.cal.parse('0730', start), (target, 2))
target = datetime.datetime(
self.yr, self.mth, self.dy, 17, 30, 0).timetuple()
self.assertExpectedResult(
self.cal.parse('1730', start), (target, 2))
self.assertExpectedResult(
self.cal.parse('173000', start), (target, 2))
def testDates(self):
start = datetime.datetime(
self.yr, self.mth, self.dy,
self.hr, self.mn, self.sec).timetuple()
target = datetime.datetime(
2006, 8, 25, self.hr, self.mn, self.sec).timetuple()
self.assertExpectedResult(
self.cal.parse('25/08/2006', start), (target, 1))
self.assertExpectedResult(
self.cal.parse('25/8/06', start), (target, 1))
self.assertExpectedResult(
self.cal.parse('août 25, 2006', start), (target, 1))
self.assertExpectedResult(
self.cal.parse('août 25 2006', start), (target, 1))
if self.mth > 8 or (self.mth == 8 and self.dy > 25):
target = datetime.datetime(
self.yr + 1, 8, 25, self.hr, self.mn, self.sec).timetuple()
else:
target = datetime.datetime(
self.yr, 8, 25, self.hr, self.mn, self.sec).timetuple()
self.assertExpectedResult(
self.cal.parse('25/8', start), (target, 1))
self.assertExpectedResult(
self.cal.parse('25/08', start), (target, 1))
def testWeekDays(self):
start = datetime.datetime(
self.yr, self.mth, self.dy,
self.hr, self.mn, self.sec).timetuple()
o1 = self.ptc.CurrentDOWParseStyle
o2 = self.ptc.DOWParseStyle
# set it up so the current dow returns current day
self.ptc.CurrentDOWParseStyle = True
self.ptc.DOWParseStyle = 1
for i in range(0, 7):
dow = self.ptc.shortWeekdays[i]
print(dow)
result = self.cal.parse(dow, start)
yr, mth, dy, hr, mn, sec, wd, yd, isdst = result[0]
self.assertEqual(wd, i)
self.ptc.CurrentDOWParseStyle = o1
self.ptc.DOWParseStyle = o2
if __name__ == "__main__":
unittest.main()