def test_can_generate_code_with_xsd_refs_to_elements_with_anoynmous_complex_types(self): # The final test should have an object graph representation of the # schema below. Currently I don't know how to represent multiple # xs:elements in a schema without using ComplexTypes. # Maybe we should have a special type like AnonymousComplexType and # put that directly into schema.elements? xml = utils.open_document('tests/assets/generation/reference_complex.xsd') schema = xsdspec.Schema.parse_xmlelement(etree.fromstring(xml)) code = xsd2py.schema_to_py(schema, ['xs']) schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) assert_length(3, symbols) assert_contains('Person', symbols.keys()) assert_contains('Job', symbols.keys()) assert_equals(set(['person', 'job']), list(schemas[0].elements)) Job = symbols['Job'] Person = symbols['Person'] person_ref = Job.person assert_isinstance(person_ref, xsd.Ref) assert_equals(person_ref._type, Person) job = Job() person = Person() person.name = 'Foo' job.person = person
def test_import_same_namespace(self): path = 'tests/assets/same_namespace/same_namespace.wsdl' xml = utils.open_document(path) code = wsdl2py.generate_code_from_wsdl( xml, 'server', cwd=os.path.dirname(path)).decode() self.assertIn('Schema1_Element', code) self.assertIn('Schema2_Element', code)
def test_can_generate_code_with_xsd_refs_to_elements_with_anoynmous_complex_types( self): # The final test should have an object graph representation of the # schema below. Currently I don't know how to represent multiple # xs:elements in a schema without using ComplexTypes. # Maybe we should have a special type like AnonymousComplexType and # put that directly into schema.elements? xml = utils.open_document( 'tests/assets/generation/reference_complex.xsd') schema = xsdspec.Schema.parse_xmlelement(etree.fromstring(xml)) code = xsd2py.schema_to_py(schema, ['xs']) schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) assert_length(3, symbols) assert_contains('Person', symbols.keys()) assert_contains('Job', symbols.keys()) assert_equals(set(['person', 'job']), list(schemas[0].elements)) Job = symbols['Job'] Person = symbols['Person'] person_ref = Job.person assert_isinstance(person_ref, xsd.Ref) assert_equals(person_ref._type, Person) job = Job() person = Person() person.name = 'Foo' job.person = person
def test_can_generate_code_with_xsd_refs_to_simple_elements(self): xml = utils.open_document('tests/assets/generation/reference_simple.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) # somehow we need to be able to have schemas with multiple possible # root elements assert_length(3, symbols) assert_contains('Name', symbols.keys()) assert_contains('Job', symbols.keys()) assert_equals(set(['name', 'job']), list(schemas[0].elements)) Job = symbols['Job'] Name = symbols['Name'] name_ref = Job.name # not sure if these assertions are correct but they should give you # the idea assert_isinstance(name_ref, xsd.Ref) assert_equals(name_ref._type, Name) job = Job() # Should not raise job.name = u'Foo'
def test_schema_xsd_include(self): path = 'tests/assets/include/include.wsdl' xml = utils.open_document(path) code = wsdl2py.generate_code_from_wsdl(xml, 'server', cwd=os.path.dirname(path)) if six.PY3: code = code.decode() assert_contains('Schema1_Element', code)
def test_can_generate_code_with_xsd_refs_to_simple_elements(self): xml = utils.open_document( 'tests/assets/generation/reference_simple.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) # somehow we need to be able to have schemas with multiple possible # root elements assert_length(3, symbols) assert_contains('Name', symbols.keys()) assert_contains('Job', symbols.keys()) assert_equals(set(['name', 'job']), list(schemas[0].elements)) Job = symbols['Job'] Name = symbols['Name'] name_ref = Job.name # not sure if these assertions are correct but they should give you # the idea assert_isinstance(name_ref, xsd.Ref) assert_equals(name_ref._type, Name) job = Job() # Should not raise job.name = u'Foo'
def test_schema_xsd_restriction(self): xml = utils.open_document('tests/assets/generation/restriction.xsd') code = xsd2py.generate_code_from_xsd(xml) if six.PY3: code = code.decode() assert_contains('RestrictedString', code) assert_contains("pattern=r'[a-z]+'", code)
def test_relative_paths(self): path = 'tests/assets/relative/relative.wsdl' xml = utils.open_document(path) code = wsdl2py.generate_code_from_wsdl(xml, 'server', cwd=os.path.dirname(path)).decode() self.assertIn('Schema2_Element', code) self.assertIn('Schema3_Element', code) self.assertEqual(1, code.count('Schema3_Element'))
def test_can_generate_code_with_xsd_refs_to_simple_elements(self): xml = utils.open_document('tests/assets/generation/reference_simple.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) self.assertTrue(schemas) # somehow we need to be able to have schemas with multiple possible # root elements self.assertEqual(len(symbols), 3) self.assertIn('Name', symbols.keys()) self.assertIn('Job', symbols.keys()) self.assertEqual({'job', 'name'}, list(schemas[0].elements)) Job = symbols['Job'] Name = symbols['Name'] name_ref = Job.name # not sure if these assertions are correct but they should give you # the idea self.assertIsInstance(name_ref, xsd.Ref) self.assertEqual(name_ref._type, Name) job = Job() # Should not raise job.name = 'Foo'
def test_schema_xsd_enumeration(self): xml = utils.open_document('tests/assets/generation/enumeration2.xsd') code = xsd2py.generate_code_from_xsd(xml) m = {} try: self._exec(code, m) except SyntaxError as e: self.fail('%s: %s' % (e.__class__.__name__, e))
def test_can_generate_extension_of_type_with_special_chars(self): xml = utils.open_document( 'tests/assets/generation/extension_with_special_chars.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) assert_true('BaseType_with_special_chars_123' in symbols) assert_equals('BaseType_with_special_chars_123', symbols['ComplexType'].__base__.__name__)
def test_can_generate_code_for_two_schemas(self): xml = utils.open_document('tests/assets/generation/multi_schema.wsdl') code = wsdl2py.generate_code_from_wsdl(xml, 'client') schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) assert_length(2, [s for s in symbols if s.startswith('Schema_')]) assert_equals(['A'], list(schemas[0].elements)) assert_equals(['B'], list(schemas[1].elements))
def test_can_generate_code_for_looped_wsdl_import(self): path = 'tests/assets/generation/import_looped.wsdl' xml = utils.open_document(path) code = wsdl2py.generate_code_from_wsdl(xml, 'client', cwd=os.path.dirname(path)) schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas)
def test_can_generate_code_for_two_schemas(self): xml = utils.open_document('tests/assets/generation/multi_schema.wsdl') code = wsdl2py.generate_code_from_wsdl(xml, 'client') schemas, symbols = generated_symbols(code) self.assertTrue(schemas) self.assertEqual(len([s for s in symbols if s.startswith('Schema_')]), 2) self.assertEqual(['A'], list(schemas[0].elements)) self.assertEqual(['B'], list(schemas[1].elements))
def test_import_same_namespace(self): path = 'tests/assets/same_namespace/same_namespace.wsdl' xml = open_document(path) code = generate_code_from_wsdl(xml, 'server', cwd=os.path.dirname(path)) if six.PY3: code = code.decode() assert_contains('Schema1_Element', code) assert_contains('Schema2_Element', code)
def test_can_generate_code_for_two_schemas(self): xml = utils.open_document("tests/assets/generation/multi_schema.wsdl") code = wsdl2py.generate_code_from_wsdl(xml, "client") schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) assert_length(4, symbols) assert_equals(["A"], list(schemas[0].elements)) assert_equals(["B"], list(schemas[1].elements))
def test_relative_paths(self): path = 'tests/assets/relative/relative.wsdl' xml = open_document(path) code = generate_code_from_wsdl(xml, 'server', cwd=os.path.dirname(path)) if six.PY3: code = code.decode() assert_contains('Schema2_Element', code) assert_contains('Schema3_Element', code)
def test_create_method_list_param(self): xml = utils.open_document('tests/assets/generation/list_param.xsd') code = xsd2py.generate_code_from_xsd(xml) if six.PY3: code = code.decode() assert_contains('def create(cls, Items):', code) assert_contains('instance.Items = Items', code) assert_not_contains('Itemss', code)
def test_can_generate_code_for_simple_wsdl_import(self): path = 'tests/assets/generation/import_simple.wsdl' xml = utils.open_document(path) code = wsdl2py.generate_code_from_wsdl(xml, 'client', cwd=os.path.dirname(path)) schemas, symbols = generated_symbols(code) self.assertTrue(schemas)
def test_can_generate_code_for_inheritance(self): xml = utils.open_document('tests/assets/generation/inheritance.wsdl') code = wsdl2py.generate_code_from_wsdl(xml, 'client') schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) assert_length(4, symbols) assert_equals(['B', 'A'], list(schemas[0].elements)) assert_isinstance(schemas[0].elements['B']._type, xsd.String) assert_isinstance(schemas[0].elements['A']._type, schemas[0].elements['B']._type.__class__)
def test_can_generate_code_for_inheritance(self): xml = utils.open_document('tests/assets/generation/inheritance.wsdl') code = wsdl2py.generate_code_from_wsdl(xml, 'client') schemas, symbols = generated_symbols(code) self.assertTrue(schemas) self.assertEqual(len(symbols), 4) self.assertEqual(['B', 'A'], list(schemas[0].elements)) self.assertIsInstance(schemas[0].elements['B']._type, xsd.String) self.assertIsInstance(schemas[0].elements['A']._type, schemas[0].elements['B']._type.__class__)
def test_relative_paths(self): path = 'tests/assets/relative/relative.wsdl' xml = utils.open_document(path) code = wsdl2py.generate_code_from_wsdl(xml, 'server', cwd=os.path.dirname(path)) if six.PY3: code = code.decode() assert_contains('Schema2_Element', code) assert_contains('Schema3_Element', code) assert_equals(1, code.count('Schema3_Element'))
def test_schema_xsd_enumeration(self): xml = utils.open_document('tests/assets/generation/enumeration2.xsd') code = xsd2py.generate_code_from_xsd(xml) if six.PY3: code = code.decode() m = {} try: self._exec(code, m) except SyntaxError as e: self.fail('%s: %s' % (e.__class__.__name__, e))
def test_can_generate_list_enumeration(self): xml = utils.open_document('tests/assets/generation/enumeration.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) self.assertTrue(schemas) self.assertEqual(len(symbols), 2) self.assertIs(issubclass(symbols['MyList'], xsd.List), True) my_list = symbols['MyList']() self.assertIs(my_list.accept(['B']), True)
def test_can_generate_list_enumeration(self): xml = utils.open_document('tests/assets/generation/enumeration.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) assert_length(2, symbols) assert_true(issubclass(symbols['MyList'], xsd.List)) my_list = symbols['MyList']() assert_equals(my_list.accept(['B']), True)
def test_can_generate_code_for_simple_element(self): xml = utils.open_document('tests/assets/generation/simple_element.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) assert_length(1, symbols) assert_equals(['simpleElement'], list(schemas[0].elements)) simple_element = schemas[0].elements['simpleElement'] assert_isinstance(simple_element._type, xsd.String)
def test_can_generate_code_for_simple_element(self): xml = utils.open_document('tests/assets/generation/simple_element.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) self.assertTrue(schemas) self.assertEqual(len([s for s in symbols if s.startswith('Schema_')]), 1) self.assertEqual(['simpleElement'], list(schemas[0].elements)) simple_element = schemas[0].elements['simpleElement'] self.assertIsInstance(simple_element._type, xsd.String)
def test_can_generate_remote_tree(self): def _mock(path): if path == 'http://example.org/xsd/simple_element.xsd': filename = 'tests/assets/generation/simple_element.xsd' else: self.fail('Unexpected remote path: %s' % path) with open(filename, 'rb') as f: return f.read() xml = utils.open_document('tests/assets/generation/import_remote.wsdl') with mock.patch('soapfish.xsd2py.open_document') as p: p.side_effect = _mock code = wsdl2py.generate_code_from_wsdl( xml, 'client', cwd='http://example.org/code/') schemas, symbols = generated_symbols(code)
def test_can_generate_extension_imported(self): xml = utils.open_document('tests/assets/generation/extension_imported.xsd') code = xsd2py.generate_code_from_xsd(xml, cwd='tests/assets/generation') schemas, symbols = generated_symbols(code) self.assertTrue(schemas) base = symbols['Base'] base.Field1 try: base.Field2 except AttributeError: pass else: self.fail('Unexpected base.Field2') ct = symbols['ComplexType'] ct.Field1 ct.Field2
def test_can_generate_extension_imported(self): xml = utils.open_document('tests/assets/generation/extension_imported.xsd') code = xsd2py.generate_code_from_xsd(xml, cwd='tests/assets/generation') schemas, symbols = generated_symbols(code) assert_is_not_empty(schemas) base = symbols['Base'] base.Field1 try: base.Field2 except AttributeError: pass else: self.fail('Unexpected base.Field2') ct = symbols['ComplexType'] ct.Field1 ct.Field2
def test_code_generation_from_xsd(self): xml = utils.open_document('tests/assets/generation/default.xsd') # Add mandatory imports to test the generated code code = xsd2py.generate_code_from_xsd(xml) self._exec(code, {})
def test_can_generate_extension_of_type_with_special_chars(self): xml = utils.open_document('tests/assets/generation/extension_with_special_chars.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code) assert_true('BaseType_with_special_chars_123' in symbols) assert_equals('BaseType_with_special_chars_123', symbols['ComplexType'].__base__.__name__)
def test_create_method_list_param(self): xml = utils.open_document('tests/assets/generation/list_param.xsd') code = xsd2py.generate_code_from_xsd(xml).decode() self.assertIn('def create(cls, Items):', code) self.assertIn('instance.Items = Items', code) self.assertNotIn('Itemss', code)
def test_schema_xsd_restriction(self): xml = utils.open_document('tests/assets/generation/restriction.xsd') code = xsd2py.generate_code_from_xsd(xml).decode() self.assertIn('RestrictedString', code) self.assertIn("pattern=r'[a-z]+'", code)
def test_can_generate_extension(self): xml = utils.open_document('tests/assets/generation/extension.xsd') code = xsd2py.generate_code_from_xsd(xml) schemas, symbols = generated_symbols(code)
def test_implicit_target_namespace(self): xml = utils.open_document('tests/assets/generation/implicit_namespace.xsd') schema = xsdspec.Schema.parse_xmlelement(etree.fromstring(xml)) xsd2py.schema_to_py(schema, ['xs'], parent_namespace='http://site.example/ws/spec')
def test_code_generation_from_wsdl_server(self): xml = utils.open_document('tests/assets/generation/default.wsdl') code = wsdl2py.generate_code_from_wsdl(xml, 'server') m = {} self._exec(code, m) self._check_reparse_wsdl(m, 'server')
def test_implicit_target_namespace(self): xml = utils.open_document( 'tests/assets/generation/implicit_namespace.xsd') schema = xsdspec.Schema.parse_xmlelement(etree.fromstring(xml)) xsd2py.schema_to_py(schema, ['xs'], parent_namespace='http://site.example/ws/spec')
def setUp(self): xsd_str = utils.open_document('tests/assets/generation/attrgroup_usage.xsd') self.code = xsd2py.generate_code_from_xsd(xsd_str)
def setUp(self): xsd_str = utils.open_document('tests/assets/generation/attribute_usage.xsd') code = xsd2py.generate_code_from_xsd(xsd_str) self.schemas, self.symbols = testutil.generated_symbols(code) self.SampleType = self.symbols['SampleType']