def testMatchesWithSurroundingLatinCharsAndLeadingPunctuation(self):
# Contexts with trailing characters. Leading characters are okay here
# since the numbers we will insert start with punctuation, but
# trailing characters are still not allowed.
possibleOnlyContexts = []
possibleOnlyContexts.append(NumberContext("abc", "def"))
possibleOnlyContexts.append(NumberContext("", "def"))
possibleOnlyContexts.append(NumberContext("", u("\u00C9")))
# Numbers should not be considered valid, if they have trailing Latin
# characters, but should be considered possible.
numberWithPlus = "+14156667777"
numberWithBrackets = "(415)6667777"
self.findMatchesInContexts(possibleOnlyContexts, False, True, "US", numberWithPlus)
self.findMatchesInContexts(possibleOnlyContexts, False, True, "US", numberWithBrackets)
validContexts = []
validContexts.append(NumberContext("abc", ""))
validContexts.append(NumberContext(u("\u00C9"), ""))
validContexts.append(NumberContext(u("\u00C9"), ".")) # Trailing punctuation.
validContexts.append(NumberContext(u("\u00C9"), " def")) # Trailing white-space.
# Numbers should be considered valid, since they start with punctuation.
self.findMatchesInContexts(validContexts, True, True, "US", numberWithPlus)
self.findMatchesInContexts(validContexts, True, True, "US", numberWithBrackets)
def testMoneyNotSeenAsPhoneNumber(self):
possibleOnlyContexts = []
possibleOnlyContexts.append(NumberContext("$", ""))
possibleOnlyContexts.append(NumberContext("", "$"))
possibleOnlyContexts.append(NumberContext(u("\u00A3"), "")) # Pound sign
possibleOnlyContexts.append(NumberContext(u("\u00A5"), "")) # Yen sign
self.findMatchesInContexts(possibleOnlyContexts, False, True)
def testMatchesWithSurroundingChineseChars(self):
validContexts = []
validContexts.append(NumberContext(u("\u6211\u7684\u7535\u8BDD\u53F7\u7801\u662F"), ""))
validContexts.append(NumberContext("", u("\u662F\u6211\u7684\u7535\u8BDD\u53F7\u7801")))
validContexts.append(NumberContext(u("\u8BF7\u62E8\u6253"), u("\u6211\u5728\u660E\u5929")))
# Numbers should be considered valid, since they are surrounded by Chinese.
self.findMatchesInContexts(validContexts, True, True)
def testGetDescriptionForKoreanNumber(self):
self.assertEqual("Seoul",
description_for_number(KO_NUMBER1, _ENGLISH))
self.assertEqual("Incheon",
description_for_number(KO_NUMBER2, _ENGLISH))
self.assertEqual("Jeju",
description_for_number(KO_NUMBER3, _ENGLISH))
self.assertEqual(u("\uC11C\uC6B8"),
description_for_number(KO_NUMBER1, _KOREAN))
self.assertEqual(u("\uC778\uCC9C"),
description_for_number(KO_NUMBER2, _KOREAN))
def testMatchesWithSurroundingLatinChars(self):
possibleOnlyContexts = []
possibleOnlyContexts.append(NumberContext("abc", "def"))
possibleOnlyContexts.append(NumberContext("abc", ""))
possibleOnlyContexts.append(NumberContext("", "def"))
# Latin capital letter e with an acute accent.
possibleOnlyContexts.append(NumberContext(u("\u00C9"), ""))
# e with an acute accent decomposed (with combining mark).
possibleOnlyContexts.append(NumberContext(u("e\u0301"), ""))
# Numbers should not be considered valid, if they are surrounded by
# Latin characters, but should be considered possible.
self.findMatchesInContexts(possibleOnlyContexts, False, True)
def testIsLatinLetter(self):
self.assertTrue(PhoneNumberMatcher._is_latin_letter('c'))
self.assertTrue(PhoneNumberMatcher._is_latin_letter('C'))
self.assertTrue(PhoneNumberMatcher._is_latin_letter(u("\u00C9")))
self.assertTrue(PhoneNumberMatcher._is_latin_letter(u("\u0301"))) # Combining acute accent
# Punctuation, digits and white-space are not considered "latin letters".
self.assertFalse(PhoneNumberMatcher._is_latin_letter(':'))
self.assertFalse(PhoneNumberMatcher._is_latin_letter('5'))
self.assertFalse(PhoneNumberMatcher._is_latin_letter('-'))
self.assertFalse(PhoneNumberMatcher._is_latin_letter('.'))
self.assertFalse(PhoneNumberMatcher._is_latin_letter(' '))
self.assertFalse(PhoneNumberMatcher._is_latin_letter(u("\u6211"))) # Chinese character
self.assertFalse(PhoneNumberMatcher._is_latin_letter(u("\u306E"))) # Hiragana letter no
def _expand_formatting_rule(rule, national_prefix):
"""Formatting rules can include terms "$NP" and "$FG",
These get replaced with:
"$NP" => the national prefix
"$FG" => the first group, i.e. "$1"
"""
if rule is None:
return None
if national_prefix is None:
national_prefix = u("")
rule = re.sub(u("\$NP"), national_prefix, rule)
rule = re.sub(u("\$FG"), u("$1"), rule)
return rule
def testFindWithInternationalPrefixes(self):
self.doTestFindInContext("+1 (650) 333-6000", "NZ")
self.doTestFindInContext("1-650-333-6000", "US")
# Calling the US number from Singapore by using different service
# providers
# 1st test: calling using SingTel IDD service (IDD is 001)
self.doTestFindInContext("0011-650-333-6000", "SG")
# 2nd test: calling using StarHub IDD service (IDD is 008)
self.doTestFindInContext("0081-650-333-6000", "SG")
# 3rd test: calling using SingTel V019 service (IDD is 019)
self.doTestFindInContext("0191-650-333-6000", "SG")
# Calling the US number from Poland
self.doTestFindInContext("0~01-650-333-6000", "PL")
# Using "++" at the start.
self.doTestFindInContext("++1 (650) 333-6000", "PL")
# Using a full-width plus sign.
self.doTestFindInContext(u("\uFF0B1 (650) 333-6000"), "SG")
# The whole number, including punctuation, is here represented in
# full-width form.
self.doTestFindInContext(u("\uFF0B\uFF11\u3000\uFF08\uFF16\uFF15\uFF10\uFF09") +
u("\u3000\uFF13\uFF13\uFF13\uFF0D\uFF16\uFF10\uFF10\uFF10"),
"SG")
def testGetDescriptionForNumberWithNoDataFile(self):
# No data file containing mappings for US numbers is available in Chinese for the unittests. As
# a result, the country name of United States in simplified Chinese is returned.
self.assertEqual(u("\u7F8E\u56FD"),
description_for_number(US_NUMBER1, _CHINESE, region=_CHINA))
self.assertEqual("Bahamas",
description_for_number(BS_NUMBER1, _ENGLISH, region=_USA))
self.assertEqual("Australia",
description_for_number(AU_NUMBER, _ENGLISH, region=_USA))
self.assertEqual("",
description_for_number(NUMBER_WITH_INVALID_COUNTRY_CODE, _ENGLISH, region=_USA))
self.assertEqual("",
description_for_number(INTERNATIONAL_TOLL_FREE, _ENGLISH, region=_USA))
def testGetDescriptionForFallBack(self):
# No fallback, as the location name for the given phone number is
# available in the requested language.
self.assertEqual("Kalifornien",
description_for_number(US_NUMBER1, _GERMAN))
# German falls back to English.
self.assertEqual("New York, NY",
description_for_number(US_NUMBER3, _GERMAN))
# Italian falls back to English.
self.assertEqual("CA",
description_for_number(US_NUMBER1, _ITALIAN))
# Korean doesn't fall back to English.
self.assertEqual(u("\uB300\uD55C\uBBFC\uAD6D"),
description_for_number(KO_NUMBER3, _KOREAN))
def __init__(self, xtag):
if xtag is None:
self.o = None
else:
self.o = NumberFormat()
self.o._mutable = True
self.o.pattern = xtag.attrib['pattern'] # REQUIRED attribute
self.o.format = _get_unique_child_value(xtag, 'format')
if self.o.format is None:
raise Exception("No format pattern found")
else:
# Replace '$1' etc with '\1' to match Python regexp group reference format
self.o.format = re.sub('\$', u(r'\\'), self.o.format)
xleading_digits = xtag.findall("leadingDigits")
for xleading_digit in xleading_digits:
self.o.leading_digits_pattern.append(_dews_re(xleading_digit.text))
def testCoverage(self):
# Python version extra tests
invalid_number = PhoneNumber(country_code=210, national_number=123456)
self.assertEqual("", country_name_for_number(invalid_number, "en"))
# Ensure we exercise all public entrypoints directly
self.assertEqual("CA", _prefix_description_for_number(TEST_GEOCODE_DATA, TEST_GEOCODE_LONGEST_PREFIX, US_NUMBER1, "en"))
self.assertEqual("CA", description_for_valid_number(US_NUMBER1, "en"))
self.assertEqual("", description_for_valid_number(US_INVALID_NUMBER, "en"))
# Add in some script and region specific fictional names
TEST_GEOCODE_DATA['1650960'] = {'en': u("Mountain View, CA"),
"en_GB": u("Mountain View California"),
"en_US": u("Mountain View, Sunny California"),
"en_Xyzz_US": u("MTV - xyzz"),
"en_Latn": u("MountainView")}
# The following test might one day return "Mountain View California"
self.assertEqual("United States",
description_for_number(US_NUMBER2, _ENGLISH, region="GB"))
self.assertEqual("Mountain View, Sunny California",
description_for_number(US_NUMBER2, _ENGLISH, region="US"))
self.assertEqual("MountainView",
description_for_number(US_NUMBER2, _ENGLISH, script="Latn"))
self.assertEqual("United States",
description_for_number(US_NUMBER2, _ENGLISH, script="Latn", region="GB"))
self.assertEqual("MTV - xyzz",
description_for_number(US_NUMBER2, _ENGLISH, script="Xyzz", region="US"))
self.assertEqual("Mountain View, Sunny California",
description_for_number(US_NUMBER2, _ENGLISH, script="Zazz", region="US"))
# Get a different result when there is a script-specific variant
self.assertEqual("MountainView",
description_for_number(US_NUMBER2, _ENGLISH, script="Latn", region="US"))
TEST_GEOCODE_DATA['1650960'] = {'en': u("Mountain View, CA")}
# Test the locale mapping
TEST_GEOCODE_DATA['8868'] = {'zh': u("Chinese"), 'zh_Hant': u("Hant-specific")}
tw_number = FrozenPhoneNumber(country_code=886, national_number=810080123)
self.assertEqual("Hant-specific",
description_for_number(tw_number, "zh", region="TW"))
del TEST_GEOCODE_DATA['8868']
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
data = {
'44760': {
'en': 'British pager'
},
'244917': {
'en': 'Angolan carrier'
},
'4411': {
'en': 'British fixed line carrier'
},
'1650213': {
'en': 'US carrier2'
},
'1650212': {
'en': 'US carrier'
},
'244262': {
'en': 'Angolan fixed line carrier'
},
'4473': {
'en': 'British carrier',
'sv': u('Brittisk operat\u00f6r')
},
}
def __init__(self, owning_xterr, xtag, national_prefix,
national_prefix_formatting_rule,
national_prefix_optional_when_formatting,
carrier_code_formatting_rule):
if xtag is None:
self.o = None
self.io = None
else:
self.o = NumberFormat()
self.o._mutable = True
# Find the REQUIRED attribute
self.o.pattern = xtag.attrib['pattern']
# Find the IMPLIED attribute(s)
self.o.domestic_carrier_code_formatting_rule = xtag.get('carrierCodeFormattingRule', None)
self.o.national_prefix_formatting_rule = xtag.get('nationalPrefixFormattingRule', None)
self.o.national_prefix_optional_when_formatting = get_optional_true_attrib(xtag, 'nationalPrefixOptionalWhenFormatting')
# Post-process formatting rules for expansions and defaults
if self.o.national_prefix_formatting_rule is not None:
# expand abbreviations
self.o.national_prefix_formatting_rule = _expand_formatting_rule(self.o.national_prefix_formatting_rule,
national_prefix)
else:
# set to territory-wide formatting rule
self.o.national_prefix_formatting_rule = national_prefix_formatting_rule
if self.o.national_prefix_formatting_rule is not None:
# Replace '$1' etc with '\1' to match Python regexp group reference format
self.o.national_prefix_formatting_rule = re.sub('\$', r'\\', self.o.national_prefix_formatting_rule)
if not self.o.national_prefix_optional_when_formatting and national_prefix_optional_when_formatting:
# If attrib is None, it was missing and inherits territory-wide value
self.o.national_prefix_optional_when_formatting = national_prefix_optional_when_formatting
if self.o.domestic_carrier_code_formatting_rule is not None:
# expand abbreviations
self.o.domestic_carrier_code_formatting_rule = _expand_formatting_rule(self.o.domestic_carrier_code_formatting_rule,
national_prefix)
else:
# set to territory-wide formatting rule
self.o.domestic_carrier_code_formatting_rule = carrier_code_formatting_rule
if self.o.domestic_carrier_code_formatting_rule is not None:
# Replace '$1' etc with '\1' to match Python regexp group reference format
self.o.domestic_carrier_code_formatting_rule = re.sub('\$(\d)', r'\\\1', self.o.domestic_carrier_code_formatting_rule)
self.o.format = _get_unique_child_value(xtag, 'format')
if self.o.format is None:
raise Exception("No format pattern found")
else:
# Replace '$1' etc with '\1' to match Python regexp group reference format
self.o.format = re.sub('\$', u(r'\\'), self.o.format)
xleading_digits = xtag.findall("leadingDigits")
for xleading_digit in xleading_digits:
self.o.leading_digits_pattern.append(_dews_re(xleading_digit.text))
# Add this NumberFormat object into the owning metadata
owning_xterr.o.number_format.append(self.o)
# Extract the pattern for international format; if not present, use the national format.
# If the intlFormat is set to "NA" the intlFormat should be ignored.
self.io = NumberFormat(pattern=self.o.pattern,
leading_digits_pattern=self.o.leading_digits_pattern)
self.io._mutable = True
intl_format = _get_unique_child_value(xtag, "intlFormat")
if intl_format is None:
# Default to use the same as the national pattern if none is defined.
self.io.format = self.o.format
else:
# Replace '$1' etc with '\1' to match Python regexp group reference format
intl_format = re.sub('\$', u(r'\\'), intl_format)
if intl_format != DATA_NA:
self.io.format = intl_format
owning_xterr.has_explicit_intl_format = True
if self.io.format is not None:
# Add this international NumberFormat object into the owning metadata
owning_xterr.o.intl_number_format.append(self.io)
# Copyright (C) 2011-2015 The Libphonenumber Authors
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
data = {
'8255':{'en': 'Gyeongnam', 'ko': u('\uacbd\ub0a8')},
'8232':{'en': 'Incheon', 'ko': u('\uc778\ucc9c')},
'8231':{'en': 'Gyeonggi', 'ko': u('\uacbd\uae30')},
'8251':{'en': 'Busan', 'ko': u('\ubd80\uc0b0')},
'8253':{'en': 'Daegu', 'ko': u('\ub300\uad6c')},
'8252':{'en': 'Ulsan', 'ko': u('\uc6b8\uc0b0')},
'1650960':{'en': 'Mountain View, CA'},
'1201':{'de': 'New Jersey', 'en': 'NJ'},
'8264':{'en': 'Jeju'},
'542214':{'en': 'La Plata'},
'1989':{'en': 'MA'},
'1212812':{'en': 'New York, NY'},
'1650':{'de': 'Kalifornien', 'en': 'CA'},
'1212':{'en': 'NY'},
'8254':{'en': 'Gyeongbuk', 'ko': u('\uacbd\ubd81')},
'8233':{'en': 'Gangwon', 'ko': u('\uac15\uc6d0')},
def __unicode__(self):
return u(self.o)
def __unicode__(self):
return u("\n").join([u("%s: %s") % (country_id, territory) for country_id, territory in self.territory.items()])
def __unicode__(self):
return u(self.number_format)
NumberTest("(20) 3346 1234", "GB"), # Non-optional NP omitted
]
# Strings with number-like things that should only be found up to and
# including the "valid" leniency level.
VALID_CASES = [NumberTest("65 02 53 00 00", "US"),
NumberTest("6502 538365", "US"),
NumberTest("650//253-1234", "US"), # 2 slashes are illegal at higher levels
NumberTest("650/253/1234", "US"),
NumberTest("9002309. 158", "US"),
NumberTest("12 7/8 - 14 12/34 - 5", "US"),
NumberTest("12.1 - 23.71 - 23.45", "US"),
NumberTest("800 234 1 111x1111", "US"),
NumberTest("1979-2011 100", "US"),
NumberTest("+494949-4-94", "DE"), # National number in wrong format
NumberTest(u("\uFF14\uFF11\uFF15\uFF16\uFF16\uFF16\uFF16-\uFF17\uFF17\uFF17"), "US"),
NumberTest("2012-0102 08", "US"), # Very strange formatting.
NumberTest("2012-01-02 08", "US"),
# Breakdown assistance number with unexpected formatting.
NumberTest("1800-1-0-10 22", "AU"),
NumberTest("030-3-2 23 12 34", "DE"),
NumberTest("03 0 -3 2 23 12 34", "DE"),
NumberTest("(0)3 0 -3 2 23 12 34", "DE"),
NumberTest("0 3 0 -3 2 23 12 34", "DE"),
]
# Strings with number-like things that should only be found up to and
# including the "strict_grouping" leniency level.
STRICT_GROUPING_CASES = [NumberTest("(415) 6667777", "US"),
NumberTest("415-6667777", "US"),
# Should be found by strict grouping but not exact
def __init__(self, owning_xterr, xtag, national_prefix,
national_prefix_formatting_rule,
national_prefix_optional_when_formatting,
carrier_code_formatting_rule):
if xtag is None:
self.o = None
self.io = None
else:
self.o = NumberFormat()
self.o._mutable = True
# Find the REQUIRED attribute
self.o.pattern = xtag.attrib['pattern']
# Find the IMPLIED attribute(s)
self.o.domestic_carrier_code_formatting_rule = xtag.get('carrierCodeFormattingRule', None)
self.o.national_prefix_formatting_rule = xtag.get('nationalPrefixFormattingRule', None)
self.o.national_prefix_optional_when_formatting = get_true_attrib(xtag, 'nationalPrefixOptionalWhenFormatting')
# Post-process formatting rules for expansions and defaults
if self.o.national_prefix_formatting_rule is not None:
# expand abbreviations
self.o.national_prefix_formatting_rule = _expand_formatting_rule(self.o.national_prefix_formatting_rule,
national_prefix)
else:
# set to territory-wide formatting rule
self.o.national_prefix_formatting_rule = national_prefix_formatting_rule
if self.o.national_prefix_formatting_rule is not None:
# Replace '$1' etc with '\1' to match Python regexp group reference format
self.o.national_prefix_formatting_rule = re.sub('\$', r'\\', self.o.national_prefix_formatting_rule)
if not self.o.national_prefix_optional_when_formatting:
# If attrib is False, it was missing and inherits territory-wide value
self.o.national_prefix_optional_when_formatting = national_prefix_optional_when_formatting
if self.o.domestic_carrier_code_formatting_rule is not None:
# expand abbreviations
self.o.domestic_carrier_code_formatting_rule = _expand_formatting_rule(self.o.domestic_carrier_code_formatting_rule,
national_prefix)
else:
# set to territory-wide formatting rule
self.o.domestic_carrier_code_formatting_rule = carrier_code_formatting_rule
if self.o.domestic_carrier_code_formatting_rule is not None:
# Replace '$1' etc with '\1' to match Python regexp group reference format
self.o.domestic_carrier_code_formatting_rule = re.sub('\$(\d)', r'\\\1', self.o.domestic_carrier_code_formatting_rule)
self.o.format = _get_unique_child_value(xtag, 'format')
if self.o.format is None:
raise Exception("No format pattern found")
else:
# Replace '$1' etc with '\1' to match Python regexp group reference format
self.o.format = re.sub('\$', u(r'\\'), self.o.format)
xleading_digits = xtag.findall("leadingDigits")
for xleading_digit in xleading_digits:
self.o.leading_digits_pattern.append(_dews_re(xleading_digit.text))
# Add this NumberFormat object into the owning metadata
owning_xterr.o.number_format.append(self.o)
# Extract the pattern for international format; if not present, use the national format.
# If the intlFormat is set to "NA" the intlFormat should be ignored.
self.io = NumberFormat(pattern=self.o.pattern,
leading_digits_pattern=self.o.leading_digits_pattern)
self.io._mutable = True
intl_format = _get_unique_child_value(xtag, "intlFormat")
if intl_format is None:
# Default to use the same as the national pattern if none is defined.
self.io.format = self.o.format
else:
# Replace '$1' etc with '\1' to match Python regexp group reference format
intl_format = re.sub('\$', u(r'\\'), intl_format)
if intl_format != DATA_NA:
self.io.format = intl_format
owning_xterr.has_explicit_intl_format = True
if self.io.format is not None:
# Add this international NumberFormat object into the owning metadata
owning_xterr.o.intl_number_format.append(self.io)
def testConnectsToEmergencyNumberWithPlusSign_US(self):
self.assertFalse(connects_to_emergency_number("+911", "US"))
self.assertFalse(connects_to_emergency_number(u("\uFF0B911"), "US"))
self.assertFalse(connects_to_emergency_number(" +911", "US"))
self.assertFalse(connects_to_emergency_number("+112", "US"))
self.assertFalse(connects_to_emergency_number("+999", "US"))
def testGetDescriptionForMobilePortableRegion(self):
self.assertEqual("British carrier", name_for_number(UK_MOBILE1, _ENGLISH))
self.assertEqual(u("Brittisk operat\u00F6r"), name_for_number(UK_MOBILE1, "sv", region="SE"))
self.assertEqual("British carrier", name_for_number(UK_MOBILE1, _FRENCH))
# Returns an empty string because the UK implements mobile number portability.
self.assertEqual("", safe_display_name(UK_MOBILE1, _ENGLISH))
def __unicode__(self):
return u(self.number_format)
},
'1650960': {
'en': 'Mountain View, CA'
},
'1989': {
'en': 'MA'
},
'542214': {
'en': 'La Plata'
},
'8210': {
'en': 'Mobile prefix, should not be geocoded.'
},
'822': {
'en': 'Seoul',
'ko': u('\uc11c\uc6b8')
},
'8231': {
'en': 'Gyeonggi',
'ko': u('\uacbd\uae30')
},
'8232': {
'en': 'Incheon',
'ko': u('\uc778\ucc9c')
},
'8233': {
'en': 'Gangwon',
'ko': u('\uac15\uc6d0')
},
'8241': {
'en': 'Chungnam',
def __unicode__(self):
return u(self.o)
def __unicode__(self):
return u("\n").join([u("%s: %s") % (country_id, territory) for country_id, territory in self.territory.items()])
def testConnectsToEmergencyNumberWithPlusSign_US(self):
self.assertFalse(connects_to_emergency_number("+911", "US"))
self.assertFalse(connects_to_emergency_number(u("\uFF0B911"), "US"))
self.assertFalse(connects_to_emergency_number(" +911", "US"))
self.assertFalse(connects_to_emergency_number("+112", "US"))
self.assertFalse(connects_to_emergency_number("+999", "US"))
def testCoverage(self):
# Python version extra tests
invalid_number = PhoneNumber(country_code=210, national_number=123456)
self.assertEqual("", country_name_for_number(invalid_number, "en"))
# Ensure we exercise all public entrypoints directly
self.assertEqual(
"CA",
_prefix_description_for_number(TEST_GEOCODE_DATA,
TEST_GEOCODE_LONGEST_PREFIX,
US_NUMBER1, "en"))
self.assertEqual("CA", description_for_valid_number(US_NUMBER1, "en"))
self.assertEqual("",
description_for_valid_number(US_INVALID_NUMBER, "en"))
# Add in some script and region specific fictional names
TEST_GEOCODE_DATA['1650960'] = {
'en': u("Mountain View, CA"),
"en_GB": u("Mountain View California"),
"en_US": u("Mountain View, Sunny California"),
"en_Xyzz_US": u("MTV - xyzz"),
"en_Latn": u("MountainView")
}
# The following test might one day return "Mountain View California"
self.assertEqual(
"United States",
description_for_number(US_NUMBER2, _ENGLISH, region="GB"))
self.assertEqual(
"Mountain View, Sunny California",
description_for_number(US_NUMBER2, _ENGLISH, region="US"))
self.assertEqual(
"MountainView",
description_for_number(US_NUMBER2, _ENGLISH, script="Latn"))
self.assertEqual(
"United States",
description_for_number(US_NUMBER2,
_ENGLISH,
script="Latn",
region="GB"))
self.assertEqual(
"MTV - xyzz",
description_for_number(US_NUMBER2,
_ENGLISH,
script="Xyzz",
region="US"))
self.assertEqual(
"Mountain View, Sunny California",
description_for_number(US_NUMBER2,
_ENGLISH,
script="Zazz",
region="US"))
# Get a different result when there is a script-specific variant
self.assertEqual(
"MountainView",
description_for_number(US_NUMBER2,
_ENGLISH,
script="Latn",
region="US"))
TEST_GEOCODE_DATA['1650960'] = {'en': u("Mountain View, CA")}
# Test the locale mapping
TEST_GEOCODE_DATA['8868'] = {
'zh': u("Chinese"),
'zh_Hant': u("Hant-specific")
}
tw_number = FrozenPhoneNumber(country_code=886,
national_number=810080123)
self.assertEqual("Hant-specific",
description_for_number(tw_number, "zh", region="TW"))
del TEST_GEOCODE_DATA['8868']
