class ClassSanitizerTest(FactoryTestCase): def setUp(self): super().setUp() self.container = ClassContainer() self.sanitizer = ClassSanitizer(container=self.container) @mock.patch.object(ClassSanitizer, "process_class") def test_process(self, mock_process_class): classes = ClassFactory.list(2) self.sanitizer.container.extend(classes) ClassSanitizer.process(self.container) mock_process_class.assert_has_calls(list(map(mock.call, classes))) @mock.patch.object(ClassSanitizer, "process_duplicate_attribute_names") @mock.patch.object(ClassSanitizer, "process_attribute_sequence") @mock.patch.object(ClassSanitizer, "process_attribute_name") @mock.patch.object(ClassSanitizer, "process_attribute_restrictions") @mock.patch.object(ClassSanitizer, "process_attribute_default") def test_process_class( self, mock_process_attribute_default, mock_process_attribute_restrictions, mock_process_attribute_name, mock_process_attribute_sequence, mock_process_duplicate_attribute_names, ): target = ClassFactory.elements(2) inner = ClassFactory.elements(1) target.inner.append(inner) self.sanitizer.process_class(target) calls_with_target = [ mock.call(target.inner[0], target.inner[0].attrs[0]), mock.call(target, target.attrs[0]), mock.call(target, target.attrs[1]), ] calls_without_target = [ mock.call(target.inner[0].attrs[0]), mock.call(target.attrs[0]), mock.call(target.attrs[1]), ] mock_process_attribute_default.assert_has_calls(calls_with_target) mock_process_attribute_restrictions.assert_has_calls( calls_without_target) mock_process_attribute_name.assert_has_calls(calls_without_target) mock_process_attribute_sequence.assert_has_calls(calls_with_target) mock_process_duplicate_attribute_names.assert_has_calls( [mock.call(target.inner[0].attrs), mock.call(target.attrs)]) def test_process_attribute_default_with_list_field(self): target = ClassFactory.create() attr = AttrFactory.create(fixed=True) attr.restrictions.max_occurs = 2 self.sanitizer.process_attribute_default(target, attr) self.assertFalse(attr.fixed) def test_process_attribute_default_with_optional_field(self): target = ClassFactory.create() attr = AttrFactory.create(fixed=True, default=2) attr.restrictions.min_occurs = 0 self.sanitizer.process_attribute_default(target, attr) self.assertFalse(attr.fixed) self.assertIsNone(attr.default) def test_process_attribute_default_with_xsi_type(self): target = ClassFactory.create() attr = AttrFactory.create(fixed=True, default=2, name="type", namespace=Namespace.XSI.uri) self.sanitizer.process_attribute_default(target, attr) self.assertFalse(attr.fixed) self.assertIsNone(attr.default) def test_process_attribute_default_with_valid_case(self): target = ClassFactory.create() attr = AttrFactory.create(fixed=True, default=2) self.sanitizer.process_attribute_default(target, attr) self.assertTrue(attr.fixed) self.assertEqual(2, attr.default) @mock.patch("xsdata.codegen.sanitizer.logger.warning") @mock.patch.object(ClassSanitizer, "promote_inner_class") @mock.patch.object(ClassSanitizer, "find_enum") def test_process_attribute_default_enum(self, mock_find_enum, mock_promote_inner_class, mock_logger_warning): enum_one = ClassFactory.enumeration(1, qname="root") enum_one.attrs[0].default = "1" enum_one.attrs[0].name = "one" enum_two = ClassFactory.enumeration(1, qname="inner") enum_two.attrs[0].default = "2" enum_two.attrs[0].name = "two" enum_three = ClassFactory.enumeration(1, qname="missing_member") mock_find_enum.side_effect = [ None, enum_one, None, enum_two, enum_three, ] target = ClassFactory.create( qname="target", attrs=[ AttrFactory.create( types=[ AttrTypeFactory.create(), AttrTypeFactory.create(qname="foo"), ], default="1", ), AttrFactory.create( types=[ AttrTypeFactory.create(), AttrTypeFactory.create(qname="bar", forward=True), ], default="2", ), AttrFactory.create(default="3"), ], ) actual = [] for attr in target.attrs: self.sanitizer.process_attribute_default(target, attr) actual.append(attr.default) self.assertEqual(["@enum@root::one", "@enum@inner::two", None], actual) mock_promote_inner_class.assert_called_once_with(target, enum_two) mock_logger_warning.assert_called_once_with( "No enumeration member matched %s.%s default value `%s`", target.name, target.attrs[2].local_name, "3", ) def test_find_enum(self): native_type = AttrTypeFactory.create() matching_external = AttrTypeFactory.create("foo") missing_external = AttrTypeFactory.create("bar") matching_inner = AttrTypeFactory.create("foobar", forward=True) missing_inner = AttrTypeFactory.create("barfoo", forward=True) enumeration = ClassFactory.enumeration(1, qname="foo") inner = ClassFactory.enumeration(1, qname="foobar") target = ClassFactory.create( attrs=[ AttrFactory.create(types=[ native_type, matching_external, missing_external, matching_inner, missing_inner, ]) ], inner=[inner], ) self.sanitizer.container.extend([target, enumeration]) actual = self.sanitizer.find_enum(target, native_type) self.assertIsNone(actual) actual = self.sanitizer.find_enum(target, matching_external) self.assertEqual(enumeration, actual) actual = self.sanitizer.find_enum(target, missing_external) self.assertIsNone(actual) actual = self.sanitizer.find_enum(target, matching_inner) self.assertEqual(inner, actual) actual = self.sanitizer.find_enum(target, missing_inner) self.assertIsNone(actual) def test_process_attribute_restrictions(self): restrictions = [ Restrictions(min_occurs=0, max_occurs=0, required=True), Restrictions(min_occurs=0, max_occurs=1, required=True), Restrictions(min_occurs=1, max_occurs=1, required=False), Restrictions(max_occurs=2, required=True), Restrictions(min_occurs=2, max_occurs=2, required=True), ] expected = [ {}, {}, { "required": True }, { "max_occurs": 2, "min_occurs": 0 }, { "max_occurs": 2, "min_occurs": 2 }, ] for idx, res in enumerate(restrictions): attr = AttrFactory.create(restrictions=res) self.sanitizer.process_attribute_restrictions(attr) self.assertEqual(expected[idx], res.asdict()) def test_process_attribute_name(self): attr = AttrFactory.create(name="a") self.sanitizer.process_attribute_name(attr) self.assertEqual("a", attr.name) attr.name = "1" self.sanitizer.process_attribute_name(attr) self.assertEqual("value_1", attr.name) attr.name = "foo_+-bar" self.sanitizer.process_attribute_name(attr) self.assertEqual("foo bar", attr.name) attr.name = "+ - *" self.sanitizer.process_attribute_name(attr) self.assertEqual("value", attr.name) attr = AttrFactory.enumeration(default="-20.55") self.sanitizer.process_attribute_name(attr) self.assertEqual("value_minus_-20.55", attr.name) def test_sanitize_duplicate_attribute_names(self): attrs = [ AttrFactory.create(name="a", tag=Tag.ELEMENT), AttrFactory.create(name="a", tag=Tag.ATTRIBUTE), AttrFactory.create(name="b", tag=Tag.ATTRIBUTE), AttrFactory.create(name="c", tag=Tag.ATTRIBUTE), AttrFactory.create(name="c", tag=Tag.ELEMENT), AttrFactory.create(name="d", tag=Tag.ELEMENT), AttrFactory.create(name="d", tag=Tag.ELEMENT), AttrFactory.create(name="e", tag=Tag.ELEMENT, namespace="b"), AttrFactory.create(name="e", tag=Tag.ELEMENT), AttrFactory.create(name="f", tag=Tag.ELEMENT), AttrFactory.create(name="f", tag=Tag.ELEMENT, namespace="a"), AttrFactory.create(name="g", tag=Tag.ENUMERATION), AttrFactory.create(name="g", tag=Tag.ENUMERATION), AttrFactory.create(name="G", tag=Tag.ENUMERATION), AttrFactory.create(name="g_1", tag=Tag.ENUMERATION), ] self.sanitizer.process_duplicate_attribute_names(attrs) expected = [ "a", "a_Attribute", "b", "c_Attribute", "c", "d_Element", "d", "b_e", "e", "f", "a_f", "g", "g_2", "g_3", "g_1", ] self.assertEqual(expected, [x.name for x in attrs]) def test_sanitize_attribute_sequence(self): def len_sequential(target: Class): return len([ attr for attr in target.attrs if attr.restrictions.sequential ]) restrictions = Restrictions(max_occurs=2, sequential=True) target = ClassFactory.create(attrs=[ AttrFactory.create(restrictions=restrictions.clone()), AttrFactory.create(restrictions=restrictions.clone()), ]) attrs_clone = [attr.clone() for attr in target.attrs] self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(2, len_sequential(target)) target.attrs[0].restrictions.sequential = False self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(1, len_sequential(target)) self.sanitizer.process_attribute_sequence(target, target.attrs[1]) self.assertEqual(0, len_sequential(target)) target.attrs = attrs_clone target.attrs[1].restrictions.sequential = False self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(0, len_sequential(target)) target.attrs[0].restrictions.sequential = True target.attrs[0].restrictions.max_occurs = 0 target.attrs[1].restrictions.sequential = True self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(1, len_sequential(target)) def test_find_inner(self): inner_a = ClassFactory.create(qname="a") inner_b = ClassFactory.enumeration(2) target = ClassFactory.create(inner=[inner_a, inner_b]) self.assertEqual( inner_a, self.sanitizer.find_inner(target, condition=lambda x: x.name == "a"), ) self.assertEqual( inner_b, self.sanitizer.find_inner(target, condition=lambda x: x.is_enumeration), ) self.assertIsNone( self.sanitizer.find_inner( target, condition=lambda x: x.name == "a" and x.is_enumeration))
class ClassSanitizerTest(FactoryTestCase): def setUp(self): super().setUp() self.config = GeneratorConfig() self.container = ClassContainer() self.sanitizer = ClassSanitizer(container=self.container, config=self.config) @mock.patch.object(ClassSanitizer, "resolve_conflicts") @mock.patch.object(ClassSanitizer, "process_class") def test_process(self, mock_process_class, mock_resolve_conflicts): classes = ClassFactory.list(2) self.sanitizer.container.extend(classes) ClassSanitizer.process(self.container, self.config) mock_process_class.assert_has_calls(list(map(mock.call, classes))) mock_resolve_conflicts.assert_called_once_with() @mock.patch.object(ClassSanitizer, "process_duplicate_attribute_names") @mock.patch.object(ClassSanitizer, "process_attribute_sequence") @mock.patch.object(ClassSanitizer, "process_attribute_restrictions") @mock.patch.object(ClassSanitizer, "process_attribute_default") def test_process_class( self, mock_process_attribute_default, mock_process_attribute_restrictions, mock_process_attribute_sequence, mock_process_duplicate_attribute_names, ): target = ClassFactory.elements(2) inner = ClassFactory.elements(1) target.inner.append(inner) self.sanitizer.process_class(target) calls_with_target = [ mock.call(target.inner[0], target.inner[0].attrs[0]), mock.call(target, target.attrs[0]), mock.call(target, target.attrs[1]), ] calls_without_target = [ mock.call(target.inner[0].attrs[0]), mock.call(target.attrs[0]), mock.call(target.attrs[1]), ] mock_process_attribute_default.assert_has_calls(calls_with_target) mock_process_attribute_restrictions.assert_has_calls(calls_without_target) mock_process_attribute_sequence.assert_has_calls(calls_with_target) mock_process_duplicate_attribute_names.assert_has_calls( [mock.call(target.inner[0].attrs), mock.call(target.attrs)] ) @mock.patch.object(ClassSanitizer, "group_compound_fields") def test_process_class_group_compound_fields(self, mock_group_compound_fields): target = ClassFactory.create() inner = ClassFactory.create() target.inner.append(inner) self.config.output.compound_fields = True self.sanitizer.process_class(target) mock_group_compound_fields.assert_has_calls( [ mock.call(inner), mock.call(target), ] ) def test_process_attribute_default_with_enumeration(self): target = ClassFactory.create() attr = AttrFactory.enumeration() attr.restrictions.max_occurs = 2 attr.fixed = True self.sanitizer.process_attribute_default(target, attr) self.assertTrue(attr.fixed) def test_process_attribute_default_with_list_field(self): target = ClassFactory.create() attr = AttrFactory.create(fixed=True) attr.restrictions.max_occurs = 2 self.sanitizer.process_attribute_default(target, attr) self.assertFalse(attr.fixed) def test_process_attribute_default_with_optional_field(self): target = ClassFactory.create() attr = AttrFactory.create(fixed=True, default=2) attr.restrictions.min_occurs = 0 self.sanitizer.process_attribute_default(target, attr) self.assertFalse(attr.fixed) self.assertIsNone(attr.default) def test_process_attribute_default_with_xsi_type(self): target = ClassFactory.create() attr = AttrFactory.create( fixed=True, default=2, name="type", namespace=Namespace.XSI.uri ) self.sanitizer.process_attribute_default(target, attr) self.assertFalse(attr.fixed) self.assertIsNone(attr.default) def test_process_attribute_default_with_valid_case(self): target = ClassFactory.create() attr = AttrFactory.create(fixed=True, default=2) self.sanitizer.process_attribute_default(target, attr) self.assertTrue(attr.fixed) self.assertEqual(2, attr.default) @mock.patch("xsdata.codegen.sanitizer.logger.warning") @mock.patch.object(ClassSanitizer, "promote_inner_class") @mock.patch.object(ClassSanitizer, "find_enum") def test_process_attribute_default_enum( self, mock_find_enum, mock_promote_inner_class, mock_logger_warning ): enum_one = ClassFactory.enumeration(1, qname="root") enum_one.attrs[0].default = "1" enum_one.attrs[0].name = "one" enum_two = ClassFactory.enumeration(1, qname="inner") enum_two.attrs[0].default = "2" enum_two.attrs[0].name = "two" enum_three = ClassFactory.enumeration(1, qname="missing_member") mock_find_enum.side_effect = [ None, enum_one, None, enum_two, enum_three, ] target = ClassFactory.create( qname="target", attrs=[ AttrFactory.create( types=[ AttrTypeFactory.create(), AttrTypeFactory.create(qname="foo"), ], default="1", ), AttrFactory.create( types=[ AttrTypeFactory.create(), AttrTypeFactory.create(qname="bar", forward=True), ], default="2", ), AttrFactory.create(default="3"), ], ) actual = [] for attr in target.attrs: self.sanitizer.process_attribute_default(target, attr) actual.append(attr.default) self.assertEqual(["@enum@root::one", "@enum@inner::two", None], actual) mock_promote_inner_class.assert_called_once_with(target, enum_two) mock_logger_warning.assert_called_once_with( "No enumeration member matched %s.%s default value `%s`", target.name, target.attrs[2].local_name, "3", ) def test_promote_inner_class(self): target = ClassFactory.elements(2, qname="parent") inner = ClassFactory.create(qname="{foo}bar") target.inner.append(inner) target.attrs[1].types.append(AttrTypeFactory.create(forward=True, qname="bar")) clone_target = target.clone() self.container.add(target) self.sanitizer.promote_inner_class(target, inner) self.assertNotIn(inner, target.inner) self.assertEqual("{foo}parent_bar", target.attrs[1].types[1].qname) self.assertFalse(target.attrs[1].types[1].forward) self.assertEqual("{foo}parent_bar", inner.qname) self.assertEqual(2, len(self.container.data)) self.assertIn(inner, self.container["{foo}parent_bar"]) self.assertEqual(clone_target.attrs[0], target.attrs[0]) self.assertEqual(clone_target.attrs[1].types[0], target.attrs[1].types[0]) def test_find_enum(self): native_type = AttrTypeFactory.create() matching_external = AttrTypeFactory.create("foo") missing_external = AttrTypeFactory.create("bar") matching_inner = AttrTypeFactory.create("foobar", forward=True) missing_inner = AttrTypeFactory.create("barfoo", forward=True) enumeration = ClassFactory.enumeration(1, qname="foo") inner = ClassFactory.enumeration(1, qname="foobar") target = ClassFactory.create( attrs=[ AttrFactory.create( types=[ native_type, matching_external, missing_external, matching_inner, missing_inner, ] ) ], inner=[inner], ) self.sanitizer.container.extend([target, enumeration]) actual = self.sanitizer.find_enum(target, native_type) self.assertIsNone(actual) actual = self.sanitizer.find_enum(target, matching_external) self.assertEqual(enumeration, actual) actual = self.sanitizer.find_enum(target, missing_external) self.assertIsNone(actual) actual = self.sanitizer.find_enum(target, matching_inner) self.assertEqual(inner, actual) actual = self.sanitizer.find_enum(target, missing_inner) self.assertIsNone(actual) def test_process_attribute_restrictions(self): restrictions = [ Restrictions(min_occurs=0, max_occurs=0, required=True), Restrictions(min_occurs=0, max_occurs=1, required=True), Restrictions(min_occurs=1, max_occurs=1, required=False), Restrictions(max_occurs=2, required=True), Restrictions(min_occurs=2, max_occurs=2, required=True), ] expected = [ {}, {}, {"required": True}, {"max_occurs": 2}, {"max_occurs": 2, "min_occurs": 2}, ] for idx, res in enumerate(restrictions): attr = AttrFactory.create(restrictions=res) self.sanitizer.process_attribute_restrictions(attr) self.assertEqual(expected[idx], res.asdict()) def test_sanitize_duplicate_attribute_names(self): attrs = [ AttrFactory.create(name="a", tag=Tag.ELEMENT), AttrFactory.create(name="a", tag=Tag.ATTRIBUTE), AttrFactory.create(name="b", tag=Tag.ATTRIBUTE), AttrFactory.create(name="c", tag=Tag.ATTRIBUTE), AttrFactory.create(name="c", tag=Tag.ELEMENT), AttrFactory.create(name="d", tag=Tag.ELEMENT), AttrFactory.create(name="d", tag=Tag.ELEMENT), AttrFactory.create(name="e", tag=Tag.ELEMENT, namespace="b"), AttrFactory.create(name="e", tag=Tag.ELEMENT), AttrFactory.create(name="f", tag=Tag.ELEMENT), AttrFactory.create(name="f", tag=Tag.ELEMENT, namespace="a"), AttrFactory.create(name="gA", tag=Tag.ENUMERATION), AttrFactory.create(name="g[A]", tag=Tag.ENUMERATION), AttrFactory.create(name="g_a", tag=Tag.ENUMERATION), AttrFactory.create(name="g_a_1", tag=Tag.ENUMERATION), ] self.sanitizer.process_duplicate_attribute_names(attrs) expected = [ "a", "a_Attribute", "b", "c_Attribute", "c", "d_Element", "d", "b_e", "e", "f", "a_f", "gA", "g[A]_2", "g_a_3", "g_a_1", ] self.assertEqual(expected, [x.name for x in attrs]) def test_sanitize_attribute_sequence(self): def len_sequential(target: Class): return len([attr for attr in target.attrs if attr.restrictions.sequential]) restrictions = Restrictions(max_occurs=2, sequential=True) target = ClassFactory.create( attrs=[ AttrFactory.create(restrictions=restrictions.clone()), AttrFactory.create(restrictions=restrictions.clone()), ] ) attrs_clone = [attr.clone() for attr in target.attrs] self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(2, len_sequential(target)) target.attrs[0].restrictions.sequential = False self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(1, len_sequential(target)) self.sanitizer.process_attribute_sequence(target, target.attrs[1]) self.assertEqual(0, len_sequential(target)) target.attrs = attrs_clone target.attrs[1].restrictions.sequential = False self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(0, len_sequential(target)) target.attrs[0].restrictions.sequential = True target.attrs[0].restrictions.max_occurs = 0 target.attrs[1].restrictions.sequential = True self.sanitizer.process_attribute_sequence(target, target.attrs[0]) self.assertEqual(1, len_sequential(target)) @mock.patch.object(ClassSanitizer, "rename_classes") def test_resolve_conflicts(self, mock_rename_classes): classes = [ ClassFactory.create(qname="{foo}A"), ClassFactory.create(qname="{foo}a"), ClassFactory.create(qname="a"), ClassFactory.create(qname="b"), ClassFactory.create(qname="b"), ] self.sanitizer.container.extend(classes) self.sanitizer.resolve_conflicts() mock_rename_classes.assert_has_calls( [ mock.call(classes[:2]), mock.call(classes[3:]), ] ) @mock.patch.object(ClassSanitizer, "rename_class") def test_rename_classes(self, mock_rename_class): classes = [ ClassFactory.create(qname="a", type=Element), ClassFactory.create(qname="A", type=Element), ClassFactory.create(qname="a", type=ComplexType), ] self.sanitizer.rename_classes(classes) mock_rename_class.assert_has_calls( [ mock.call(classes[0]), mock.call(classes[1]), mock.call(classes[2]), ] ) @mock.patch.object(ClassSanitizer, "rename_class") def test_rename_classes_protects_single_element(self, mock_rename_class): classes = [ ClassFactory.create(qname="a", type=Element), ClassFactory.create(qname="a", type=ComplexType), ] self.sanitizer.rename_classes(classes) mock_rename_class.assert_called_once_with(classes[1]) @mock.patch.object(ClassSanitizer, "rename_dependency") def test_rename_class(self, mock_rename_dependency): target = ClassFactory.create(qname="{foo}a") self.sanitizer.container.add(target) self.sanitizer.container.add(ClassFactory.create()) self.sanitizer.container.add(ClassFactory.create(qname="{foo}a_1")) self.sanitizer.container.add(ClassFactory.create(qname="{foo}A_2")) self.sanitizer.rename_class(target) self.assertEqual("{foo}a_3", target.qname) self.assertEqual("a", target.meta_name) mock_rename_dependency.assert_has_calls( mock.call(item, "{foo}a", "{foo}a_3") for item in self.sanitizer.container.iterate() ) self.assertEqual([target], self.container.data["{foo}a_3"]) self.assertEqual([], self.container.data["{foo}a"]) def test_rename_dependency(self): attr_type = AttrTypeFactory.create("{foo}bar") target = ClassFactory.create( extensions=[ ExtensionFactory.create(), ExtensionFactory.create(type=attr_type.clone()), ], attrs=[ AttrFactory.create(), AttrFactory.create(types=[AttrTypeFactory.create(), attr_type.clone()]), ], inner=[ ClassFactory.create( extensions=[ExtensionFactory.create(type=attr_type.clone())], attrs=[ AttrFactory.create(), AttrFactory.create( types=[AttrTypeFactory.create(), attr_type.clone()] ), ], ) ], ) self.sanitizer.rename_dependency(target, "{foo}bar", "thug") dependencies = set(target.dependencies()) self.assertNotIn("{foo}bar", dependencies) self.assertIn("thug", dependencies) @mock.patch.object(ClassSanitizer, "group_fields") def test_group_compound_fields(self, mock_group_fields): target = ClassFactory.elements(8) # First group repeating target.attrs[0].restrictions.choice = "1" target.attrs[1].restrictions.choice = "1" target.attrs[1].restrictions.max_occurs = 2 # Second group repeating target.attrs[2].restrictions.choice = "2" target.attrs[3].restrictions.choice = "2" target.attrs[3].restrictions.max_occurs = 2 # Third group optional target.attrs[4].restrictions.choice = "3" target.attrs[5].restrictions.choice = "3" self.sanitizer.group_compound_fields(target) mock_group_fields.assert_has_calls( [ mock.call(target, target.attrs[0:2]), mock.call(target, target.attrs[2:4]), ] ) def test_group_fields(self): target = ClassFactory.create(attrs=AttrFactory.list(2)) target.attrs[0].restrictions.min_occurs = 10 target.attrs[0].restrictions.max_occurs = 15 target.attrs[1].restrictions.min_occurs = 5 target.attrs[1].restrictions.max_occurs = 20 expected = AttrFactory.create( name="attr_B_Or_attr_C", tag="Choice", index=0, types=[AttrTypeFactory.xs_any()], choices=[ AttrFactory.create( tag=target.attrs[0].tag, name="attr_B", types=target.attrs[0].types, ), AttrFactory.create( tag=target.attrs[1].tag, name="attr_C", types=target.attrs[1].types, ), ], ) expected_res = Restrictions(min_occurs=5, max_occurs=20) self.sanitizer.group_fields(target, list(target.attrs)) self.assertEqual(1, len(target.attrs)) self.assertEqual(expected, target.attrs[0]) self.assertEqual(expected_res, target.attrs[0].restrictions) def test_group_fields_limit_name(self): target = ClassFactory.create(attrs=AttrFactory.list(3)) self.sanitizer.group_fields(target, list(target.attrs)) self.assertEqual(1, len(target.attrs)) self.assertEqual("attr_B_Or_attr_C_Or_attr_D", target.attrs[0].name) target = ClassFactory.create(attrs=AttrFactory.list(4)) self.sanitizer.group_fields(target, list(target.attrs)) self.assertEqual("choice", target.attrs[0].name) def test_build_attr_choice(self): attr = AttrFactory.create( name="a", namespace="xsdata", default="123", help="help", fixed=True ) attr.local_name = "aaa" attr.restrictions = Restrictions( required=True, prohibited=None, min_occurs=1, max_occurs=1, min_exclusive="1.1", min_inclusive="1", min_length=1, max_exclusive="1", max_inclusive="1.1", max_length=10, total_digits=333, fraction_digits=2, length=5, white_space="collapse", pattern=r"[A-Z]", explicit_timezone="+1", nillable=True, choice="abc", sequential=True, ) expected_res = attr.restrictions.clone() expected_res.min_occurs = None expected_res.max_occurs = None expected_res.sequential = None actual = self.sanitizer.build_attr_choice(attr) self.assertEqual(attr.local_name, actual.name) self.assertEqual(attr.namespace, actual.namespace) self.assertEqual(attr.default, actual.default) self.assertEqual(attr.tag, actual.tag) self.assertEqual(attr.types, actual.types) self.assertEqual(expected_res, actual.restrictions) self.assertEqual(attr.help, actual.help) self.assertFalse(actual.fixed)