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_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_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_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_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_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_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)
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_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_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_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 assert_is_soap_fault(self, response, fault_code=None, partial_fault_string=None):
assert_equals(500, response.http_status_code)
assert_equals('text/xml', response.http_headers['Content-Type'])
fault_document = etree.fromstring(response.http_content)
soap_envelope = fault_document.getroottree()
namespaces = {'s': 'http://schemas.xmlsoap.org/soap/envelope/'}
fault_nodes = soap_envelope.xpath('/s:Envelope/s:Body/s:Fault', namespaces=namespaces)
assert_length(1, fault_nodes, message='expected exactly one SOAP fault')
children = list(fault_nodes[0])
assert_length(2, children)
xml_fault_code, fault_string = children
if fault_code is None:
fault_code = 'Client'
assert_equals(fault_code, xml_fault_code.text)
if partial_fault_string:
assert_contains(partial_fault_string, fault_string.text)
def test_can_consume_generator_if_necessary(self):
def generator():
for i in (1, 2, 3):
yield i
assert_length(3, generator())
generator_ = generator()
assert_length(3, generator_)
assert_length(0, generator_)
def assert_is_soap_fault(self,
response,
fault_code=None,
partial_fault_string=None):
assert_equals(500, response.http_status_code)
assert_equals('text/xml', response.http_headers['Content-Type'])
fault_document = etree.fromstring(response.http_content)
soap_envelope = fault_document.getroottree()
namespaces = {'s': 'http://schemas.xmlsoap.org/soap/envelope/'}
fault_nodes = soap_envelope.xpath('/s:Envelope/s:Body/s:Fault',
namespaces=namespaces)
assert_length(1,
fault_nodes,
message='expected exactly one SOAP fault')
children = list(fault_nodes[0])
assert_length(2, children)
xml_fault_code, fault_string = children
if fault_code is None:
fault_code = 'Client'
assert_equals(fault_code, xml_fault_code.text)
if partial_fault_string:
assert_contains(partial_fault_string, fault_string.text)
def test_passes_if_length_matches_actual(self):
assert_length(0, [])
assert_length(1, ['foo'])
def assert_fail(self, expected, actual, message=None):
return assert_raises(
AssertionError,
lambda: assert_length(expected, actual, message=message))
def assert_fail(self, expected, actual, message=None):
return assert_raises(AssertionError, lambda: assert_length(expected, actual, message=message))
def test_passes_if_length_matches_actual(self):
assert_length(0, [])
assert_length(1, ['foo'])
