# -*- coding: utf-8 -*- # Copyright (c) 2010 Mark Sandstrom # Copyright (c) 2011-2015 Raphaël Barrois # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. from __future__ import unicode_literals import itertools from factory import utils from .compat import is_python2, unittest class ExtractDictTestCase(unittest.TestCase): def test_empty_dict(self): self.assertEqual({}, utils.extract_dict('foo', {})) def test_unused_key(self): self.assertEqual({}, utils.extract_dict('foo', {'bar__baz': 42})) def test_empty_key(self): self.assertEqual({}, utils.extract_dict('', {'foo': 13, 'bar__baz': 42})) d = {'foo': 13, 'bar__baz': 42, '__foo': 1} self.assertEqual({'foo': 1}, utils.extract_dict('', d)) self.assertNotIn('__foo', d) def test_one_key(self): d = {'foo': 13, 'foo__baz': 42, '__foo': 1} self.assertEqual({'baz': 42}, utils.extract_dict('foo', d, pop=False)) self.assertEqual(42, d['foo__baz']) self.assertEqual({'baz': 42}, utils.extract_dict('foo', d, pop=True)) self.assertNotIn('foo__baz', d) def test_one_key_excluded(self): d = {'foo': 13, 'foo__baz': 42, '__foo': 1} self.assertEqual({}, utils.extract_dict('foo', d, pop=False, exclude=('foo__baz',))) self.assertEqual(42, d['foo__baz']) self.assertEqual({}, utils.extract_dict('foo', d, pop=True, exclude=('foo__baz',))) self.assertIn('foo__baz', d) def test_many_keys(self): d = {'foo': 13, 'foo__baz': 42, 'foo__foo__bar': 2, 'foo__bar': 3, '__foo': 1} self.assertEqual({'foo__bar': 2, 'bar': 3, 'baz': 42}, utils.extract_dict('foo', d, pop=False)) self.assertEqual(42, d['foo__baz']) self.assertEqual(3, d['foo__bar']) self.assertEqual(2, d['foo__foo__bar']) self.assertEqual({'foo__bar': 2, 'bar': 3, 'baz': 42}, utils.extract_dict('foo', d, pop=True)) self.assertNotIn('foo__baz', d) self.assertNotIn('foo__bar', d) self.assertNotIn('foo__foo__bar', d) def test_many_keys_excluded(self): d = {'foo': 13, 'foo__baz': 42, 'foo__foo__bar': 2, 'foo__bar': 3, '__foo': 1} self.assertEqual({'foo__bar': 2, 'baz': 42}, utils.extract_dict('foo', d, pop=False, exclude=('foo__bar', 'bar'))) self.assertEqual(42, d['foo__baz']) self.assertEqual(3, d['foo__bar']) self.assertEqual(2, d['foo__foo__bar']) self.assertEqual({'foo__bar': 2, 'baz': 42}, utils.extract_dict('foo', d, pop=True, exclude=('foo__bar', 'bar'))) self.assertNotIn('foo__baz', d) self.assertIn('foo__bar', d) self.assertNotIn('foo__foo__bar', d) class MultiExtractDictTestCase(unittest.TestCase): def test_empty_dict(self): self.assertEqual({'foo': {}}, utils.multi_extract_dict(['foo'], {})) def test_unused_key(self): self.assertEqual({'foo': {}}, utils.multi_extract_dict(['foo'], {'bar__baz': 42})) self.assertEqual({'foo': {}, 'baz': {}}, utils.multi_extract_dict(['foo', 'baz'], {'bar__baz': 42})) def test_no_key(self): self.assertEqual({}, utils.multi_extract_dict([], {'bar__baz': 42})) def test_empty_key(self): self.assertEqual({'': {}}, utils.multi_extract_dict([''], {'foo': 13, 'bar__baz': 42})) d = {'foo': 13, 'bar__baz': 42, '__foo': 1} self.assertEqual({'': {'foo': 1}}, utils.multi_extract_dict([''], d)) self.assertNotIn('__foo', d) def test_one_extracted(self): d = {'foo': 13, 'foo__baz': 42, '__foo': 1} self.assertEqual({'foo': {'baz': 42}}, utils.multi_extract_dict(['foo'], d, pop=False)) self.assertEqual(42, d['foo__baz']) self.assertEqual({'foo': {'baz': 42}}, utils.multi_extract_dict(['foo'], d, pop=True)) self.assertNotIn('foo__baz', d) def test_many_extracted(self): d = {'foo': 13, 'foo__baz': 42, 'foo__foo__bar': 2, 'foo__bar': 3, '__foo': 1} self.assertEqual({'foo': {'foo__bar': 2, 'bar': 3, 'baz': 42}}, utils.multi_extract_dict(['foo'], d, pop=False)) self.assertEqual(42, d['foo__baz']) self.assertEqual(3, d['foo__bar']) self.assertEqual(2, d['foo__foo__bar']) self.assertEqual({'foo': {'foo__bar': 2, 'bar': 3, 'baz': 42}}, utils.multi_extract_dict(['foo'], d, pop=True)) self.assertNotIn('foo__baz', d) self.assertNotIn('foo__bar', d) self.assertNotIn('foo__foo__bar', d) def test_many_keys_one_extracted(self): d = {'foo': 13, 'foo__baz': 42, '__foo': 1} self.assertEqual({'foo': {'baz': 42}, 'baz': {}}, utils.multi_extract_dict(['foo', 'baz'], d, pop=False)) self.assertEqual(42, d['foo__baz']) self.assertEqual({'foo': {'baz': 42}, 'baz': {}}, utils.multi_extract_dict(['foo', 'baz'], d, pop=True)) self.assertNotIn('foo__baz', d) def test_many_keys_many_extracted(self): d = { 'foo': 13, 'foo__baz': 42, 'foo__foo__bar': 2, 'foo__bar': 3, 'bar__foo': 1, 'bar__bar__baz': 4, } self.assertEqual( { 'foo': {'foo__bar': 2, 'bar': 3, 'baz': 42}, 'bar': {'foo': 1, 'bar__baz': 4}, 'baz': {} }, utils.multi_extract_dict(['foo', 'bar', 'baz'], d, pop=False)) self.assertEqual(42, d['foo__baz']) self.assertEqual(3, d['foo__bar']) self.assertEqual(2, d['foo__foo__bar']) self.assertEqual(1, d['bar__foo']) self.assertEqual(4, d['bar__bar__baz']) self.assertEqual( { 'foo': {'foo__bar': 2, 'bar': 3, 'baz': 42}, 'bar': {'foo': 1, 'bar__baz': 4}, 'baz': {} }, utils.multi_extract_dict(['foo', 'bar', 'baz'], d, pop=True)) self.assertNotIn('foo__baz', d) self.assertNotIn('foo__bar', d) self.assertNotIn('foo__foo__bar', d) self.assertNotIn('bar__foo', d) self.assertNotIn('bar__bar__baz', d) def test_son_in_list(self): """Make sure that prefixes are used in decreasing match length order.""" d = { 'foo': 13, 'foo__baz': 42, 'foo__foo__bar': 2, 'foo__bar': 3, 'bar__foo': 1, 'bar__bar__baz': 4, } self.assertEqual( { 'foo__foo': {'bar': 2}, 'foo': {'bar': 3, 'baz': 42}, 'bar__bar': {'baz': 4}, 'bar': {'foo': 1}, 'baz': {} }, utils.multi_extract_dict( ['foo', 'bar', 'baz', 'foo__foo', 'bar__bar'], d, pop=False)) self.assertEqual(42, d['foo__baz']) self.assertEqual(3, d['foo__bar']) self.assertEqual(2, d['foo__foo__bar']) self.assertEqual(1, d['bar__foo']) self.assertEqual(4, d['bar__bar__baz']) self.assertEqual( { 'foo__foo': {'bar': 2}, 'foo': {'bar': 3, 'baz': 42}, 'bar__bar': {'baz': 4}, 'bar': {'foo': 1}, 'baz': {} }, utils.multi_extract_dict( ['foo', 'bar', 'baz', 'foo__foo', 'bar__bar'], d, pop=True)) self.assertNotIn('foo__baz', d) self.assertNotIn('foo__bar', d) self.assertNotIn('foo__foo__bar', d) self.assertNotIn('bar__foo', d) self.assertNotIn('bar__bar__baz', d) class ImportObjectTestCase(unittest.TestCase): def test_datetime(self): imported = utils.import_object('datetime', 'date') import datetime d = datetime.date self.assertEqual(d, imported) def test_unknown_attribute(self): self.assertRaises(AttributeError, utils.import_object, 'datetime', 'foo') def test_invalid_module(self): self.assertRaises(ImportError, utils.import_object, 'this-is-an-invalid-module', '__name__') class LogPPrintTestCase(unittest.TestCase): def test_nothing(self): txt = str(utils.log_pprint()) self.assertEqual('', txt) def test_only_args(self): txt = str(utils.log_pprint((1, 2, 3))) self.assertEqual('1, 2, 3', txt) def test_only_kwargs(self): txt = str(utils.log_pprint(kwargs={'a': 1, 'b': 2})) self.assertIn(txt, ['a=1, b=2', 'b=2, a=1']) def test_bytes_args(self): txt = str(utils.log_pprint((b'\xe1\xe2',))) expected = "b'\\xe1\\xe2'" if is_python2: expected = expected.lstrip('b') self.assertEqual(expected, txt) def test_text_args(self): txt = str(utils.log_pprint(('ŧêßŧ',))) expected = "'ŧêßŧ'" if is_python2: expected = "u'\\u0167\\xea\\xdf\\u0167'" self.assertEqual(expected, txt) def test_bytes_kwargs(self): txt = str(utils.log_pprint(kwargs={'x': b'\xe1\xe2', 'y': b'\xe2\xe1'})) expected1 = "x=b'\\xe1\\xe2', y=b'\\xe2\\xe1'" expected2 = "y=b'\\xe2\\xe1', x=b'\\xe1\\xe2'" if is_python2: expected1 = expected1.replace('b', '') expected2 = expected2.replace('b', '') self.assertIn(txt, (expected1, expected2)) def test_text_kwargs(self): txt = str(utils.log_pprint(kwargs={'x': 'ŧêßŧ', 'y': 'ŧßêŧ'})) expected1 = "x='ŧêßŧ', y='ŧßêŧ'" expected2 = "y='ŧßêŧ', x='ŧêßŧ'" if is_python2: expected1 = "x=u'\\u0167\\xea\\xdf\\u0167', y=u'\\u0167\\xdf\\xea\\u0167'" expected2 = "y=u'\\u0167\\xdf\\xea\\u0167', x=u'\\u0167\\xea\\xdf\\u0167'" self.assertIn(txt, (expected1, expected2)) class ResetableIteratorTestCase(unittest.TestCase): def test_no_reset(self): i = utils.ResetableIterator([1, 2, 3]) self.assertEqual([1, 2, 3], list(i)) def test_no_reset_new_iterator(self): i = utils.ResetableIterator([1, 2, 3]) iterator = iter(i) self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) iterator2 = iter(i) self.assertEqual(3, next(iterator2)) def test_infinite(self): i = utils.ResetableIterator(itertools.cycle([1, 2, 3])) iterator = iter(i) values = [next(iterator) for _i in range(10)] self.assertEqual([1, 2, 3, 1, 2, 3, 1, 2, 3, 1], values) def test_reset_simple(self): i = utils.ResetableIterator([1, 2, 3]) iterator = iter(i) self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) i.reset() self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) def test_reset_at_begin(self): i = utils.ResetableIterator([1, 2, 3]) iterator = iter(i) i.reset() i.reset() self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) def test_reset_at_end(self): i = utils.ResetableIterator([1, 2, 3]) iterator = iter(i) self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) i.reset() self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) def test_reset_after_end(self): i = utils.ResetableIterator([1, 2, 3]) iterator = iter(i) self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) self.assertRaises(StopIteration, next, iterator) i.reset() # Previous iter() has stopped iterator = iter(i) self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) def test_reset_twice(self): i = utils.ResetableIterator([1, 2, 3, 4, 5]) iterator = iter(i) self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) i.reset() self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) self.assertEqual(4, next(iterator)) i.reset() self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) self.assertEqual(4, next(iterator)) def test_reset_shorter(self): i = utils.ResetableIterator([1, 2, 3, 4, 5]) iterator = iter(i) self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) self.assertEqual(4, next(iterator)) i.reset() self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) i.reset() self.assertEqual(1, next(iterator)) self.assertEqual(2, next(iterator)) self.assertEqual(3, next(iterator)) self.assertEqual(4, next(iterator))