# -*- coding: utf-8 -*- # Copyright (c) 2010 Mark Sandstrom # Copyright (c) 2011 Raphaƫl 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. try: import unittest2 as unittest except ImportError: import unittest from factory import base from factory import containers from factory import declarations class LazyStubTestCase(unittest.TestCase): def test_basic(self): stub = containers.LazyStub({'one': 1, 'two': 2}) self.assertEqual({'one': 1, 'two': 2}, stub.__fill__()) def test_setting_values(self): stub = containers.LazyStub({'one': 1, 'two': 2}) self.assertRaises(AttributeError, setattr, stub, 'one', 1) def test_reading_value(self): stub = containers.LazyStub({'one': 1, 'two': 2}) self.assertEqual(1, stub.one) self.assertRaises(AttributeError, getattr, stub, 'three') def test_accessing_container(self): class LazyAttr(containers.LazyValue): def __init__(self, obj_attr, container_attr): self.obj_attr = obj_attr self.container_attr = container_attr def evaluate(self, obj, containers=()): if containers: add = getattr(containers[0], self.container_attr) else: add = 0 return getattr(obj, self.obj_attr) + add class DummyContainer(object): three = 3 stub = containers.LazyStub({'one': LazyAttr('two', 'three'), 'two': 2, 'three': 42}, containers=(DummyContainer(),)) self.assertEqual(5, stub.one) stub = containers.LazyStub({'one': LazyAttr('two', 'three'), 'two': 2, 'three': 42}, containers=()) self.assertEqual(2, stub.one) def test_cyclic_definition(self): class LazyAttr(containers.LazyValue): def __init__(self, attrname): self.attrname = attrname def evaluate(self, obj, container=None): return 1 + getattr(obj, self.attrname) stub = containers.LazyStub({'one': LazyAttr('two'), 'two': LazyAttr('one')}) self.assertRaises(containers.CyclicDefinitionError, getattr, stub, 'one') def test_representation(self): class RandomObj(object): pass stub = containers.LazyStub({'one': 1, 'two': 2}, target_class=RandomObj) self.assertIn('RandomObj', repr(stub)) self.assertIn('RandomObj', str(stub)) self.assertIn('one', str(stub)) class OrderedDeclarationMock(declarations.OrderedDeclaration): pass class DeclarationDictTestCase(unittest.TestCase): def test_basics(self): one = OrderedDeclarationMock() two = 2 three = OrderedDeclarationMock() d = containers.DeclarationDict(dict(one=one, two=two, three=three)) self.assertTrue('one' in d) self.assertTrue('two' in d) self.assertTrue('three' in d) self.assertEqual(one, d['one']) self.assertEqual(two, d['two']) self.assertEqual(three, d['three']) self.assertEqual(one, d.pop('one')) self.assertFalse('one' in d) d['one'] = one self.assertTrue('one' in d) self.assertEqual(one, d['one']) self.assertEqual(set(['one', 'two', 'three']), set(d)) def test_insert(self): one = OrderedDeclarationMock() two = 2 three = OrderedDeclarationMock() four = OrderedDeclarationMock() d = containers.DeclarationDict(dict(one=one, two=two, four=four)) self.assertEqual(set(['two', 'one', 'four']), set(d)) d['three'] = three self.assertEqual(set(['two', 'one', 'three', 'four']), set(d)) def test_replace(self): one = OrderedDeclarationMock() two = 2 three = OrderedDeclarationMock() four = OrderedDeclarationMock() d = containers.DeclarationDict(dict(one=one, two=two, three=three)) self.assertEqual(set(['two', 'one', 'three']), set(d)) d['three'] = four self.assertEqual(set(['two', 'one', 'three']), set(d)) self.assertEqual(set([two, one, four]), set(d.values())) def test_copy(self): one = OrderedDeclarationMock() two = 2 three = OrderedDeclarationMock() four = OrderedDeclarationMock() d = containers.DeclarationDict(dict(one=one, two=two, three=three)) d2 = d.copy({'five': 5}) self.assertEqual(5, d2['five']) self.assertFalse('five' in d) d.pop('one') self.assertEqual(one, d2['one']) d2['two'] = four self.assertEqual(four, d2['two']) self.assertEqual(two, d['two']) def test_update_with_public(self): d = containers.DeclarationDict() d.update_with_public({ 'one': 1, '_two': 2, 'three': 3, 'classmethod': classmethod(lambda c: 1), 'staticmethod': staticmethod(lambda: 1), }) self.assertEqual(set(['one', 'three']), set(d)) self.assertEqual(set([1, 3]), set(d.values())) class AttributeBuilderTestCase(unittest.TestCase): def test_empty(self): """Tests building attributes from an empty definition.""" class FakeFactory(object): @classmethod def declarations(cls, extra): return extra @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory) self.assertEqual({}, ab.build(create=False)) def test_factory_defined(self): class FakeFactory(object): @classmethod def declarations(cls, extra): d = {'one': 1} d.update(extra) return d @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory) self.assertEqual({'one': 1}, ab.build(create=False)) def test_extended(self): class FakeFactory(object): @classmethod def declarations(cls, extra): d = {'one': 1} d.update(extra) return d @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory, {'two': 2}) self.assertEqual({'one': 1, 'two': 2}, ab.build(create=False)) def test_overridden(self): class FakeFactory(object): @classmethod def declarations(cls, extra): d = {'one': 1} d.update(extra) return d @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory, {'one': 2}) self.assertEqual({'one': 2}, ab.build(create=False)) def test_factory_defined_sequence(self): seq = declarations.Sequence(lambda n: 'xx' + n) class FakeFactory(object): @classmethod def declarations(cls, extra): d = {'one': seq} d.update(extra) return d @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory) self.assertEqual({'one': 'xx1'}, ab.build(create=False)) def test_additionnal_sequence(self): seq = declarations.Sequence(lambda n: 'xx' + n) class FakeFactory(object): @classmethod def declarations(cls, extra): d = {'one': 1} d.update(extra) return d @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory, extra={'two': seq}) self.assertEqual({'one': 1, 'two': 'xx1'}, ab.build(create=False)) def test_replaced_sequence(self): seq = declarations.Sequence(lambda n: 'xx' + n) seq2 = declarations.Sequence(lambda n: 'yy' + n) class FakeFactory(object): @classmethod def declarations(cls, extra): d = {'one': seq} d.update(extra) return d @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory, extra={'one': seq2}) self.assertEqual({'one': 'yy1'}, ab.build(create=False)) def test_lazy_attribute(self): la = declarations.LazyAttribute(lambda a: a.one * 2) class FakeFactory(object): @classmethod def declarations(cls, extra): d = containers.DeclarationDict({'one': 1, 'two': la}) d.update(extra) return d @classmethod def _generate_next_sequence(cls): return 1 ab = containers.AttributeBuilder(FakeFactory) self.assertEqual({'one': 1, 'two': 2}, ab.build(create=False)) ab = containers.AttributeBuilder(FakeFactory, {'one': 4}) self.assertEqual({'one': 4, 'two': 8}, ab.build(create=False)) ab = containers.AttributeBuilder(FakeFactory, {'one': 4, 'three': la}) self.assertEqual({'one': 4, 'two': 8, 'three': 8}, ab.build(create=False)) def test_sub_factory(self): pass if __name__ == '__main__': unittest.main()