import test_appliance from yaml import * class TestStructure(test_appliance.TestAppliance): def _testStructure(self, test_name, data_filename, structure_filename): node1 = None node2 = eval(file(structure_filename, 'rb').read()) try: loader = Loader(file(data_filename, 'rb')) node1 = [] while not loader.check_event(StreamEndEvent): if not loader.check_event(StreamStartEvent, DocumentStartEvent, DocumentEndEvent): node1.append(self._convert(loader)) else: loader.get_event() loader.get_event() if len(node1) == 1: node1 = node1[0] self.failUnlessEqual(node1, node2) except: print print "DATA:" print file(data_filename, 'rb').read() print "NODE1:", node1 print "NODE2:", node2 raise def _convert(self, loader): if loader.check_event(ScalarEvent): event = loader.get_event() if event.tag or event.anchor or event.value: return True else: return None elif loader.check_event(SequenceStartEvent): loader.get_event() sequence = [] while not loader.check_event(SequenceEndEvent): sequence.append(self._convert(loader)) loader.get_event() return sequence elif loader.check_event(MappingStartEvent): loader.get_event() mapping = [] while not loader.check_event(MappingEndEvent): key = self._convert(loader) value = self._convert(loader) mapping.append((key, value)) loader.get_event() return mapping elif loader.check_event(AliasEvent): loader.get_event() return '*' else: loader.get_event() return '?' TestStructure.add_tests('testStructure', '.data', '.structure') class TestParser(test_appliance.TestAppliance): def _testParser(self, test_name, data_filename, canonical_filename): events1 = None events2 = None try: events1 = list(parse(file(data_filename, 'rb'))) events2 = list(test_appliance.canonical_parse(file(canonical_filename, 'rb'))) self._compare(events1, events2) except: print print "DATA1:" print file(data_filename, 'rb').read() print "DATA2:" print file(canonical_filename, 'rb').read() print "EVENTS1:", events1 print "EVENTS2:", events2 raise def _compare(self, events1, events2): self.failUnlessEqual(len(events1), len(events2)) for event1, event2 in zip(events1, events2): self.failUnlessEqual(event1.__class__, event2.__class__) if isinstance(event1, AliasEvent): #self.failUnlessEqual(event1.name, event2.name) pass elif isinstance(event1, ScalarEvent): #self.failUnlessEqual(event1.anchor, event2.anchor) #self.failUnlessEqual(event1.tag, event2.tag) self.failUnlessEqual(event1.value, event2.value) if isinstance(event1, CollectionStartEvent): #self.failUnlessEqual(event1.anchor, event2.anchor) #self.failUnlessEqual(event1.tag, event2.tag) pass TestParser.add_tests('testParser', '.data', '.canonical') class TestResolver(test_appliance.TestAppliance): def _testResolver(self, test_name, data_filename, canonical_filename): nodes1 = None nodes2 = None try: nodes1 = list(compose_all(file(data_filename, 'rb'))) nodes2 = list(test_appliance.canonical_compose_all(file(canonical_filename, 'rb'))) self.failUnlessEqual(len(nodes1), len(nodes2)) for node1, node2 in zip(nodes1, nodes2): self._compare(node1, node2) except: print print "DATA1:" print file(data_filename, 'rb').read() print "DATA2:" print file(canonical_filename, 'rb').read() print "NODES1:", nodes1 print "NODES2:", nodes2 raise def _compare(self, node1, node2): self.failUnlessEqual(node1.__class__, node2.__class__) if isinstance(node1, ScalarNode): #self.failUnlessEqual(node1.tag, node2.tag) self.failUnlessEqual(node1.value, node2.value) elif isinstance(node1, SequenceNode): self.failUnlessEqual(len(node1.value), len(node2.value)) for item1, item2 in zip(node1.value, node2.value): self._compare(item1, item2) elif isinstance(node1, MappingNode): self.failUnlessEqual(len(node1.value), len(node2.value)) items1 = node1.value.items() items1.sort(lambda (k1,v1), (k2,v2): cmp((k1.tag,k1.value,v1.tag,v1.value), (k2.tag,k2.value,v2.tag,v2.value))) items2 = node2.value.items() items2.sort(lambda (k1,v1), (k2,v2): cmp((k1.tag,k1.value,v1.tag,v1.value), (k2.tag,k2.value,v2.tag,v2.value))) for (key1, value1), (key2, value2) in zip(items1, items2): self._compare(key1, key2) self._compare(value1, value2) TestResolver.add_tests('testResolver', '.data', '.canonical') class MyConstructor: def construct_sequence(self, node): return tuple(Constructor.construct_sequence(self, node)) def construct_mapping(self, node): pairs = self.construct_pairs(node) pairs.sort() return pairs def construct_undefined(self, node): return self.construct_scalar(node) class MyLoader(MyConstructor, Loader): pass MyLoader.add_constructor(None, MyLoader.construct_undefined) class MyCanonicalLoader(MyConstructor, test_appliance.CanonicalLoader): pass MyCanonicalLoader.add_constructor(None, MyCanonicalLoader.construct_undefined) class TestConstructor(test_appliance.TestAppliance): def _testConstructor(self, test_name, data_filename, canonical_filename): data1 = None data2 = None try: data1 = list(load_all(file(data_filename, 'rb'), Loader=MyLoader)) data2 = list(load_all(file(canonical_filename, 'rb'), Loader=MyCanonicalLoader)) self.failUnlessEqual(data1, data2) except: print print "DATA1:" print file(data_filename, 'rb').read() print "DATA2:" print file(canonical_filename, 'rb').read() print "NATIVES1:", data1 print "NATIVES2:", data2 raise TestConstructor.add_tests('testConstructor', '.data', '.canonical') class TestParserOnCanonical(test_appliance.TestAppliance): def _testParserOnCanonical(self, test_name, canonical_filename): events1 = None events2 = None try: events1 = list(parse(file(canonical_filename, 'rb'))) events2 = list(test_appliance.canonical_parse(file(canonical_filename, 'rb'))) self._compare(events1, events2) except: print print "DATA:" print file(canonical_filename, 'rb').read() print "EVENTS1:", events1 print "EVENTS2:", events2 raise def _compare(self, events1, events2): self.failUnlessEqual(len(events1), len(events2)) for event1, event2 in zip(events1, events2): self.failUnlessEqual(event1.__class__, event2.__class__) if isinstance(event1, AliasEvent): self.failUnlessEqual(event1.anchor, event2.anchor) elif isinstance(event1, ScalarEvent): self.failUnlessEqual(event1.anchor, event2.anchor) self.failUnlessEqual(event1.tag, event2.tag) self.failUnlessEqual(event1.value, event2.value) if isinstance(event1, CollectionStartEvent): self.failUnlessEqual(event1.anchor, event2.anchor) self.failUnlessEqual(event1.tag, event2.tag) TestParserOnCanonical.add_tests('testParserOnCanonical', '.canonical')