| import io |
| import re |
| import string |
| import sys |
| import unittest |
|
|
| from collections import OrderedDict |
| from ipaddress import ip_address, ip_network |
| from unittest.mock import PropertyMock, patch |
|
|
| import pytest |
|
|
| from faker import Faker, Generator |
| from faker.factory import Factory |
| from faker.generator import random |
| from faker.utils import decorators, text |
|
|
|
|
| class BarProvider: |
|
|
| def foo_formatter(self): |
| return 'barfoo' |
|
|
|
|
| class FooProvider: |
|
|
| def foo_formatter(self): |
| return 'foobar' |
|
|
| def foo_formatter_with_arguments(self, param='', append=''): |
| return 'baz' + param + append |
|
|
|
|
| class FactoryTestCase(unittest.TestCase): |
|
|
| def setUp(self): |
| self.generator = Generator() |
| self.provider = FooProvider() |
| self.generator.add_provider(self.provider) |
|
|
| def test_add_provider_gives_priority_to_newly_added_provider(self): |
| self.generator.add_provider(BarProvider()) |
| assert 'barfoo' == self.generator.format('foo_formatter') |
|
|
| def test_get_formatter_returns_callable(self): |
| formatter = self.generator.get_formatter('foo_formatter') |
| assert callable(formatter) |
|
|
| def test_get_formatter_returns_correct_formatter(self): |
| assert self.provider.foo_formatter == ( |
| self.generator.get_formatter('foo_formatter')) |
|
|
| def test_get_formatter_throws_exception_on_incorrect_formatter(self): |
| with pytest.raises(AttributeError) as exc: |
| self.generator.get_formatter('barFormatter') |
| assert exc.args[0] == 'Unknown formatter "barFormatter"' |
|
|
| fake = Faker('it_IT') |
| with pytest.raises(AttributeError) as exc: |
| fake.get_formatter('barFormatter') |
| assert exc.args[0] == 'Unknown formatter "barFormatter" with locale "it_IT"' |
|
|
| def test_invalid_locale(self): |
| with pytest.raises(AttributeError): |
| Faker('foo_Bar') |
|
|
| def test_format_calls_formatter_on_provider(self): |
| assert 'foobar' == self.generator.format('foo_formatter') |
|
|
| def test_format_transfers_arguments_to_formatter(self): |
| result = self.generator.format('foo_formatter_with_arguments', |
| 'foo', append='!') |
| assert 'bazfoo!' == result |
|
|
| def test_parse_returns_same_string_when_it_contains_no_curly_braces(self): |
| assert 'fooBar#?' == self.generator.parse('fooBar#?') |
|
|
| def test_parse_returns_string_with_tokens_replaced_by_formatters(self): |
| result = self.generator.parse( |
| 'This is {{foo_formatter}} a text with "{{ foo_formatter }}"') |
| assert 'This is foobar a text with " foobar "' == result |
|
|
| def test_magic_call_calls_format(self): |
| assert 'foobar' == self.generator.foo_formatter() |
|
|
| def test_magic_call_calls_format_with_arguments(self): |
| assert 'bazfoo' == ( |
| self.generator.foo_formatter_with_arguments('foo')) |
|
|
| def test_documentor(self): |
| from faker.cli import print_doc |
| output = io.StringIO() |
| print_doc(output=output) |
| print_doc('address', output=output) |
| print_doc('faker.providers.person.it_IT', output=output) |
| assert output.getvalue() |
| with pytest.raises(AttributeError): |
| self.generator.get_formatter('barFormatter') |
|
|
| def test_command(self): |
| from faker.cli import Command |
| orig_stdout = sys.stdout |
| try: |
| sys.stdout = io.StringIO() |
| command = Command(['faker', 'address']) |
| command.execute() |
| assert sys.stdout.getvalue() |
| finally: |
| sys.stdout = orig_stdout |
|
|
| def test_command_custom_provider(self): |
| from faker.cli import Command |
| orig_stdout = sys.stdout |
| try: |
| sys.stdout = io.StringIO() |
| command = Command(['faker', 'foo', '-i', 'tests.mymodule.en_US']) |
| command.execute() |
| assert sys.stdout.getvalue() |
| finally: |
| sys.stdout = orig_stdout |
|
|
| def test_cli_seed(self): |
| from faker.cli import Command |
| orig_stdout = sys.stdout |
| try: |
| sys.stdout = io.StringIO() |
| base_args = ['faker', 'address'] |
| target_args = ['--seed', '967'] |
| commands = [Command(base_args + target_args), Command(base_args + target_args)] |
| cli_output = [None] * 2 |
| for i in range(2): |
| commands[i].execute() |
| cli_output[i] = sys.stdout.getvalue() |
| cli_output[1] = cli_output[1][len(cli_output[0]):] |
| assert cli_output[0][:10] == cli_output[1][:10] |
| finally: |
| sys.stdout = orig_stdout |
|
|
| def test_cli_seed_with_repeat(self): |
| from faker.cli import Command |
| orig_stdout = sys.stdout |
| try: |
| sys.stdout = io.StringIO() |
| base_args = ['faker', 'address', '-r', '3'] |
| target_args = ['--seed', '967'] |
| commands = [Command(base_args + target_args), Command(base_args + target_args)] |
| cli_output = [None] * 2 |
| for i in range(2): |
| commands[i].execute() |
| cli_output[i] = sys.stdout.getvalue() |
| cli_output[1] = cli_output[1][len(cli_output[0]):] |
| assert cli_output[0] == cli_output[1] |
| finally: |
| sys.stdout = orig_stdout |
|
|
| def test_cli_verbosity(self): |
| from faker.cli import Command |
| orig_stdout = sys.stdout |
| try: |
| sys.stdout = io.StringIO() |
| base_args = ['faker', 'address', '--seed', '769'] |
| target_args = ['-v'] |
| commands = [Command(base_args), Command(base_args + target_args)] |
| cli_output = [None] * 2 |
| for i in range(2): |
| commands[i].execute() |
| cli_output[i] = sys.stdout.getvalue() |
| simple_output, verbose_output = cli_output |
| assert simple_output != verbose_output |
| finally: |
| sys.stdout = orig_stdout |
|
|
| def test_slugify(self): |
| slug = text.slugify("a'b/c") |
| assert slug == 'abc' |
|
|
| slug = text.slugify("àeìöú") |
| assert slug == 'aeiou' |
|
|
| slug = text.slugify("àeì.öú") |
| assert slug == 'aeiou' |
|
|
| slug = text.slugify("àeì.öú", allow_dots=True) |
| assert slug == 'aei.ou' |
|
|
| slug = text.slugify("àeì.öú", allow_unicode=True) |
| assert slug == 'àeìöú' |
|
|
| slug = text.slugify("àeì.öú", allow_unicode=True, allow_dots=True) |
| assert slug == 'àeì.öú' |
|
|
| @decorators.slugify |
| def fn(s): |
| return s |
|
|
| slug = fn("a'b/c") |
| assert slug == 'abc' |
|
|
| @decorators.slugify_domain |
| def fn(s): |
| return s |
|
|
| slug = fn("a'b/.c") |
| assert slug == 'ab.c' |
|
|
| @decorators.slugify_unicode |
| def fn(s): |
| return s |
|
|
| slug = fn("a'b/.cé") |
| assert slug == 'abcé' |
|
|
| def test_random_element(self): |
| from faker.providers import BaseProvider |
| provider = BaseProvider(self.generator) |
|
|
| choices = ('a', 'b', 'c', 'd') |
| pick = provider.random_element(choices) |
| assert pick in choices |
|
|
| |
| with self.assertRaises(ValueError): |
| provider.random_element({}) |
|
|
| choices = OrderedDict([('a', 5), ('b', 2), ('c', 2), ('d', 1)]) |
| pick = provider.random_element(choices) |
| self.assertTrue(pick in choices) |
|
|
| choices = OrderedDict([('a', 0.5), ('b', 0.2), ('c', 0.2), ('d', 0.1)]) |
| pick = provider.random_element(choices) |
| self.assertTrue(pick in choices) |
|
|
| def test_binary(self): |
| from faker.providers.misc import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(999): |
| length = random.randint(0, 2 ** 10) |
| binary = provider.binary(length) |
|
|
| assert isinstance(binary, (bytes, bytearray)) |
| assert len(binary) == length |
|
|
| for _ in range(999): |
| self.generator.seed(_) |
| binary1 = provider.binary(_) |
| self.generator.seed(_) |
| binary2 = provider.binary(_) |
|
|
| assert binary1 == binary2 |
|
|
| def test_language_code(self): |
| from faker.providers.misc import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| language_code = provider.language_code() |
| assert isinstance(language_code, str) |
| assert re.match(r'^[a-z]{2,3}$', language_code) |
|
|
| def test_locale(self): |
| from faker.providers.misc import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| locale = provider.locale() |
| assert re.match(r'^[a-z]{2,3}_[A-Z]{2}$', locale) |
|
|
| def test_password(self): |
| from faker.providers.misc import Provider |
| provider = Provider(self.generator) |
|
|
| def in_string(char, _str): |
| return char in _str |
|
|
| for _ in range(999): |
| password = provider.password() |
|
|
| assert any(in_string(char, password) for char in "!@#$%^&*()_+") |
| assert any(in_string(char, password) for char in string.digits) |
| assert any(in_string(char, password) for char in string.ascii_uppercase) |
| assert any(in_string(char, password) for char in string.ascii_lowercase) |
|
|
| with pytest.raises(AssertionError): |
| provider.password(length=2) |
|
|
| def test_prefix_suffix_always_string(self): |
| |
| for locale in ("bg_BG", "dk_DK", "en", "ru_RU", "tr_TR"): |
| fake = Faker(locale=locale) |
| for x in range(20): |
| self.assertIsInstance(fake.prefix(), str) |
| self.assertIsInstance(fake.suffix(), str) |
|
|
| def test_no_words_sentence(self): |
| from faker.providers.lorem import Provider |
|
|
| provider = Provider(self.generator) |
|
|
| paragraph = provider.paragraph(0) |
| assert paragraph == '' |
|
|
| def test_words_valueerror(self): |
| fake = Faker() |
| with pytest.raises(ValueError): |
| fake.text(max_nb_chars=4) |
|
|
| def test_no_words_paragraph(self): |
| from faker.providers.lorem import Provider |
|
|
| provider = Provider(self.generator) |
|
|
| sentence = provider.sentence(0) |
| assert sentence == '' |
|
|
| def test_ext_word_list(self): |
| fake = Faker() |
|
|
| my_word_list = [ |
| 'danish', |
| 'cheesecake', |
| 'sugar', |
| 'Lollipop', |
| 'wafer', |
| 'Gummies', |
| 'Jelly', |
| 'pie', |
| ] |
| word = fake.word(ext_word_list=my_word_list) |
| assert word in my_word_list |
|
|
| def test_no_words(self): |
| fake = Faker() |
|
|
| words = fake.words(0) |
| assert words == [] |
|
|
| def test_some_words(self): |
| fake = Faker() |
|
|
| num_words = 5 |
| words = fake.words(num_words) |
| assert isinstance(words, list) |
| assert len(words) == num_words |
|
|
| for word in words: |
| assert isinstance(word, str) |
| assert re.match(r'^[a-z].*$', word) |
|
|
| def test_words_ext_word_list(self): |
| fake = Faker() |
|
|
| my_word_list = [ |
| 'danish', |
| 'cheesecake', |
| 'sugar', |
| 'Lollipop', |
| 'wafer', |
| 'Gummies', |
| 'Jelly', |
| 'pie', |
| ] |
|
|
| num_words = 5 |
| words = fake.words(5, ext_word_list=my_word_list) |
| assert isinstance(words, list) |
| assert len(words) == num_words |
|
|
| for word in words: |
| assert isinstance(word, str) |
| assert word in my_word_list |
|
|
| def test_words_ext_word_list_unique(self): |
| fake = Faker() |
|
|
| my_word_list = [ |
| 'danish', |
| 'cheesecake', |
| 'sugar', |
| 'Lollipop', |
| 'wafer', |
| 'Gummies', |
| 'Jelly', |
| 'pie', |
| ] |
|
|
| num_words = 5 |
| words = fake.words(5, ext_word_list=my_word_list, unique=True) |
| assert isinstance(words, list) |
| assert len(words) == num_words |
|
|
| checked_words = [] |
| for word in words: |
| assert isinstance(word, str) |
| assert word in my_word_list |
| |
| assert word not in checked_words |
| checked_words.append(word) |
|
|
| def test_unique_words(self): |
| fake = Faker() |
|
|
| num_words = 20 |
| words = fake.words(num_words, unique=True) |
| assert isinstance(words, list) |
| assert len(words) == num_words |
|
|
| checked_words = [] |
| for word in words: |
| assert isinstance(word, str) |
| |
| assert re.match(r'^[a-zA-Z].*$', word) |
| |
| assert word not in checked_words |
| checked_words.append(word) |
|
|
| def test_texts_count(self): |
| fake = Faker() |
|
|
| texts_count = 5 |
| assert texts_count == len(fake.texts(nb_texts=texts_count)) |
|
|
| def test_texts_chars_count(self): |
| fake = Faker() |
|
|
| chars_count = 5 |
| for faker_text in fake.texts(max_nb_chars=chars_count): |
| assert chars_count >= len(faker_text) |
|
|
| def test_texts_word_list(self): |
| fake = Faker() |
|
|
| word_list = [ |
| 'test', |
| 'faker', |
| ] |
| for faker_text in fake.texts(ext_word_list=word_list): |
| for word in word_list: |
| assert word in faker_text.lower() |
|
|
| def test_random_pystr_characters(self): |
| from faker.providers.python import Provider |
| provider = Provider(self.generator) |
|
|
| characters = provider.pystr() |
| assert len(characters) == 20 |
| characters = provider.pystr(max_chars=255) |
| assert len(characters) == 255 |
| characters = provider.pystr(max_chars=0) |
| assert characters == '' |
| characters = provider.pystr(max_chars=-10) |
| assert characters == '' |
| characters = provider.pystr(min_chars=10, max_chars=255) |
| assert (len(characters) >= 10) |
|
|
| def test_random_pyfloat(self): |
| from faker.providers.python import Provider |
| provider = Provider(self.generator) |
|
|
| assert 0 <= abs(provider.pyfloat(left_digits=1)) < 10 |
| assert 0 <= abs(provider.pyfloat(left_digits=0)) < 1 |
| x = abs(provider.pyfloat(right_digits=0)) |
| assert x - int(x) == 0 |
| with pytest.raises(ValueError): |
| provider.pyfloat(left_digits=0, right_digits=0) |
|
|
| def test_pyfloat_in_range(self): |
| |
| fake = Faker() |
|
|
| for i in range(20): |
| for min_value, max_value in [ |
| (0, 1), |
| (-1, 1), |
| (None, -5), |
| (-5, None), |
| (None, 5), |
| (5, None), |
| ]: |
| fake.seed_instance(i) |
| result = fake.pyfloat(min_value=min_value, max_value=max_value) |
| if min_value is not None: |
| assert result >= min_value |
| if max_value is not None: |
| assert result <= max_value |
|
|
| def test_negative_pyfloat(self): |
| |
| fake = Faker() |
| fake.seed_instance(32167) |
| assert any(fake.pyfloat(left_digits=0, positive=False) < 0 for _ in range(100)) |
| assert any(fake.pydecimal(left_digits=0, positive=False) < 0 for _ in range(100)) |
|
|
| def test_pyfloat_empty_range_error(self): |
| |
| fake = Faker() |
| fake.seed_instance(8038) |
| assert fake.pyfloat(max_value=9999) < 9999 |
|
|
| def test_pyfloat_same_min_max(self): |
| |
| fake = Faker() |
| with pytest.raises(ValueError): |
| assert fake.pyfloat(min_value=9999, max_value=9999) |
|
|
| def test_us_ssn_valid(self): |
| from faker.providers.ssn.en_US import Provider |
|
|
| provider = Provider(self.generator) |
| for i in range(1000): |
| ssn = provider.ssn() |
| assert len(ssn) == 11 |
| assert ssn[0] != '9' |
| assert ssn[0:3] != '666' |
| assert ssn[0:3] != '000' |
| assert ssn[4:6] != '00' |
| assert ssn[7:11] != '0000' |
|
|
| def test_nl_BE_ssn_valid(self): |
| fake = Faker('nl_BE') |
|
|
| for i in range(1000): |
| ssn = fake.ssn() |
| assert len(ssn) == 11 |
| gen_seq = ssn[6:9] |
| gen_chksum = ssn[9:11] |
| gen_seq_as_int = int(gen_seq) |
| gen_chksum_as_int = int(gen_chksum) |
| |
| assert gen_seq_as_int > 0 |
| assert gen_seq_as_int <= 998 |
|
|
| |
| |
| ssn_below = int(ssn[0:9]) |
| chksum_below = 97 - (ssn_below % 97) |
| ssn_above = ssn_below + 2000000000 |
| chksum_above = 97 - (ssn_above % 97) |
| results = [chksum_above, chksum_below] |
| assert gen_chksum_as_int in results |
|
|
| def test_email(self): |
| fake = Faker() |
|
|
| for _ in range(99): |
| email = fake.email() |
| assert '@' in email |
|
|
| def test_ipv4_caching(self): |
| from faker.providers.internet import Provider, _IPv4Constants |
|
|
| |
| for address_class in list(_IPv4Constants._network_classes.keys()) + [None]: |
| if address_class is None: |
| networks_attr = '_cached_all_networks' |
| else: |
| networks_attr = '_cached_all_class_{}_networks'.format(address_class) |
| weights_attr = '{}_weights'.format(networks_attr) |
| provider = Provider(self.generator) |
|
|
| |
| assert not hasattr(provider, networks_attr) |
| assert not hasattr(provider, weights_attr) |
| provider.ipv4(address_class=address_class) |
| assert hasattr(provider, networks_attr) |
| assert hasattr(provider, weights_attr) |
|
|
| |
| with patch.object(Provider, networks_attr, create=True, |
| new_callable=PropertyMock) as mock_networks_cache: |
| with patch.object(Provider, weights_attr, create=True, |
| new_callable=PropertyMock) as mock_weights_cache: |
| |
| mock_networks_cache.return_value = [ip_network('10.0.0.0/24')] |
| mock_weights_cache.return_value = [10] |
| for _ in range(100): |
| provider.ipv4(address_class=address_class) |
|
|
| |
| |
| assert mock_networks_cache.call_count == 200 |
| assert mock_weights_cache.call_count == 200 |
|
|
| def test_ipv4(self): |
| from faker.providers.internet import Provider |
|
|
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| address = provider.ipv4() |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}$').search(address)) |
|
|
| for _ in range(99): |
| address = provider.ipv4(network=True) |
| assert len(address) >= 9 |
| assert len(address) <= 18 |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}/\d{1,2}$').search(address)) |
|
|
| address = provider.ipv4(private=True) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}$').search(address)) |
|
|
| address = provider.ipv4(private=False) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}$').search(address)) |
|
|
| def test_ipv4_network_class(self): |
| from faker.providers.internet import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| klass = provider.ipv4_network_class() |
| assert klass in 'abc' |
|
|
| def test_ipv4_private_caching(self): |
| from faker.providers.internet import Provider, _IPv4Constants |
|
|
| for address_class in _IPv4Constants._network_classes.keys(): |
| networks_attr = '_cached_private_class_{}_networks'.format(address_class) |
| weights_attr = '{}_weights'.format(networks_attr) |
| provider = Provider(self.generator) |
|
|
| |
| assert not hasattr(provider, networks_attr) |
| assert not hasattr(provider, weights_attr) |
| provider.ipv4_private(address_class=address_class) |
| assert hasattr(provider, networks_attr) |
| assert hasattr(provider, weights_attr) |
|
|
| |
| with patch.object(Provider, networks_attr, create=True, |
| new_callable=PropertyMock) as mock_networks_cache: |
| with patch.object(Provider, weights_attr, create=True, |
| new_callable=PropertyMock) as mock_weights_cache: |
| |
| mock_networks_cache.return_value = [ip_network('10.0.0.0/24')] |
| mock_weights_cache.return_value = [10] |
| for _ in range(100): |
| provider.ipv4_private(address_class=address_class) |
|
|
| |
| |
| assert mock_networks_cache.call_count == 200 |
| assert mock_weights_cache.call_count == 200 |
|
|
| def test_ipv4_private(self): |
| from faker.providers.internet import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| address = provider.ipv4_private() |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert ip_address(address).is_private |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}$').search(address)) |
|
|
| for _ in range(99): |
| address = provider.ipv4_private(network=True) |
| address = str(address) |
| assert len(address) >= 9 |
| assert len(address) <= 18 |
| assert ip_network(address)[0].is_private |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}/\d{1,2}$').search(address)) |
|
|
| def test_ipv4_private_class_a(self): |
| from faker.providers.internet import Provider, _IPv4Constants |
| provider = Provider(self.generator) |
|
|
| class_network = _IPv4Constants._network_classes['a'] |
| class_min = class_network.network_address |
| class_max = class_network.broadcast_address |
|
|
| for _ in range(99): |
| address = provider.ipv4_private(address_class='a') |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert ip_address(address).is_private |
| assert ip_address(address) >= class_min |
| assert ip_address(address) <= class_max |
|
|
| def test_ipv4_private_class_b(self): |
| from faker.providers.internet import Provider, _IPv4Constants |
| provider = Provider(self.generator) |
|
|
| class_network = _IPv4Constants._network_classes['b'] |
| class_min = class_network.network_address |
| class_max = class_network.broadcast_address |
|
|
| for _ in range(99): |
| address = provider.ipv4_private(address_class='b') |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert ip_address(address).is_private |
| assert ip_address(address) >= class_min |
| assert ip_address(address) <= class_max |
|
|
| def test_ipv4_private_class_c(self): |
| from faker.providers.internet import Provider, _IPv4Constants |
| provider = Provider(self.generator) |
|
|
| class_network = _IPv4Constants._network_classes['c'] |
| class_min = class_network.network_address |
| class_max = class_network.broadcast_address |
|
|
| for _ in range(99): |
| address = provider.ipv4_private(address_class='c') |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert ip_address(address).is_private |
| assert ip_address(address) >= class_min |
| assert ip_address(address) <= class_max |
|
|
| def test_ipv4_public_caching(self): |
| from faker.providers.internet import Provider, _IPv4Constants |
|
|
| for address_class in _IPv4Constants._network_classes.keys(): |
| networks_attr = '_cached_public_class_{}_networks'.format(address_class) |
| weights_attr = '{}_weights'.format(networks_attr) |
| provider = Provider(self.generator) |
|
|
| |
| assert not hasattr(provider, networks_attr) |
| assert not hasattr(provider, weights_attr) |
| provider.ipv4_public(address_class=address_class) |
| assert hasattr(provider, networks_attr) |
| assert hasattr(provider, weights_attr) |
|
|
| |
| with patch.object(Provider, networks_attr, create=True, |
| new_callable=PropertyMock) as mock_networks_cache: |
| with patch.object(Provider, weights_attr, create=True, |
| new_callable=PropertyMock) as mock_weights_cache: |
| |
| mock_networks_cache.return_value = [ip_network('10.0.0.0/24')] |
| mock_weights_cache.return_value = [10] |
| for _ in range(100): |
| provider.ipv4_public(address_class=address_class) |
|
|
| |
| |
| assert mock_networks_cache.call_count == 200 |
| assert mock_weights_cache.call_count == 200 |
|
|
| def test_ipv4_public(self): |
| from faker.providers.internet import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| address = provider.ipv4_public() |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert not ip_address(address).is_private, address |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}$').search(address)) |
|
|
| for _ in range(99): |
| address = provider.ipv4_public(network=True) |
| address = str(address) |
| assert len(address) >= 9 |
| assert len(address) <= 18 |
| |
| |
| |
| if ip_network(address).network_address != ip_address('192.0.0.0'): |
| assert not ip_network(address)[0].is_private, address |
| assert ( |
| re.compile(r'^(\d{1,3}\.){3}\d{1,3}/\d{1,2}$').search(address)) |
|
|
| def test_ipv4_public_class_a(self): |
| from faker.providers.internet import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| address = provider.ipv4_public(address_class='a') |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert not ip_address(address).is_private, address |
|
|
| def test_ipv4_public_class_b(self): |
| from faker.providers.internet import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| address = provider.ipv4_public(address_class='b') |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert not ip_address(address).is_private, address |
|
|
| def test_ipv4_public_class_c(self): |
| from faker.providers.internet import Provider |
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| address = provider.ipv4_public(address_class='c') |
| address = str(address) |
| assert len(address) >= 7 |
| assert len(address) <= 15 |
| assert not ip_address(address).is_private, address |
|
|
| def test_ipv4_distribution_selection(self): |
| from faker.providers.internet import Provider |
| from faker.utils.distribution import choices_distribution |
| provider = Provider(self.generator) |
|
|
| subnets = [ip_network('10.0.0.0/8'), ip_network('11.0.0.0/8')] |
| valid_weights = [1, 1] |
| list_of_invalid_weights = [ |
| [1, 2, 3], |
| ['a', 'b'], |
| None, |
| ] |
|
|
| with patch('faker.providers.internet.choices_distribution', |
| wraps=choices_distribution) as mock_choices_fn: |
| with patch('faker.generator.random.choice', |
| wraps=random.choice) as mock_random_choice: |
| |
| provider._random_ipv4_address_from_subnets(subnets, valid_weights) |
| assert mock_choices_fn.call_count == 1 |
| assert mock_random_choice.call_count == 0 |
|
|
| |
| |
| for invalid_weights in list_of_invalid_weights: |
| |
| mock_random_choice.reset_mock() |
| mock_choices_fn.reset_mock() |
|
|
| provider._random_ipv4_address_from_subnets(subnets, invalid_weights) |
| assert mock_choices_fn.call_count == 1 |
| assert mock_random_choice.call_count == 1 |
|
|
| def test_ipv6(self): |
| from faker.providers.internet import Provider |
|
|
| provider = Provider(self.generator) |
|
|
| for _ in range(99): |
| address = provider.ipv6() |
| assert len(address) >= 3 |
| assert len(address) <= 39 |
| assert ( |
| re.compile(r'^([0-9a-f]{0,4}:){2,7}[0-9a-f]{1,4}$').search(address)) |
|
|
| for _ in range(99): |
| address = provider.ipv6(network=True) |
| assert len(address) >= 4 |
| assert len(address) <= 39 + 4 |
| assert ( |
| re.compile(r'^([0-9a-f]{0,4}:){2,7}[0-9a-f]{0,4}/\d{1,3}$').search( |
| address)) |
|
|
| def test_random_sample_unique(self): |
| from faker.providers import BaseProvider |
| provider = BaseProvider(self.generator) |
|
|
| |
| with self.assertRaises(ValueError): |
| provider.random_sample('abcde', 6) |
|
|
| |
| sample = provider.random_sample('abcd', 4) |
| assert sorted(sample) == list('abcd') |
|
|
| sample = provider.random_sample('abcde', 5) |
| assert sorted(sample) == list('abcde') |
|
|
| |
| sample = provider.random_sample('abcde', 3) |
| assert len(sample) == 3 |
| assert set(sample).issubset(set('abcde')) |
|
|
| |
| sample = provider.random_sample('abcde', 1) |
| assert len(sample) == 1 |
| assert set(sample).issubset(set('abcde')) |
|
|
| |
| sample = provider.random_sample('abcde', 0) |
| assert sample == [] |
|
|
| def test_random_number(self): |
| from faker.providers import BaseProvider |
| provider = BaseProvider(self.generator) |
|
|
| number = provider.random_number(10, True) |
| assert len(str(number)) == 10 |
|
|
| |
| with self.assertRaises(ValueError): |
| number = provider.random_number(-1, True) |
|
|
| |
| with self.assertRaises(ValueError): |
| number = provider.random_number(0, True) |
|
|
| def test_instance_seed_chain(self): |
| factory = Factory.create() |
|
|
| names = ['Real Name0', 'Real Name1', 'Real Name2', 'Real Name0', 'Real Name2'] |
| anonymized = [factory.seed_instance(name).name() for name in names] |
| assert anonymized[0] == anonymized[3] |
| assert anonymized[2] == anonymized[4] |
|
|
|
|
| if __name__ == '__main__': |
| unittest.main() |
|
|
