tests/test_structure.py - third_party/pyyaml - Git at Google


 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:
             parser = Parser(Scanner(Reader(file(data_filename, 'rb'))))
             node1 = []
             while not parser.check(StreamEndEvent):
                 node1.append(self._convert(parser))
             parser.get()
             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, parser):
         if parser.check(ScalarEvent):
             event = parser.get()
             if event.tag or event.anchor or event.value:
                 return True
             else:
                 return None
         elif parser.check(SequenceEvent):
             parser.get()
             sequence = []
             while not parser.check(CollectionEndEvent):
                 sequence.append(self._convert(parser))
             parser.get()
             return sequence
         elif parser.check(MappingEvent):
             parser.get()
             mapping = []
             while not parser.check(CollectionEndEvent):
                 key = self._convert(parser)
                 value = self._convert(parser)
                 mapping.append((key, value))
             parser.get()
             return mapping
         elif parser.check(AliasEvent):
             parser.get()
             return '*'
         else:
             parser.get()
             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:
             parser = Parser(Scanner(Reader(file(data_filename, 'rb'))))
             events1 = list(iter(parser))
             canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
             events2 = canonical.parse()
             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, CollectionEvent):
                 #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:
             resolver1 = Resolver(Composer(Parser(Scanner(Reader(file(data_filename, 'rb'))))))
             nodes1 = list(iter(resolver1))
             canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
             canonical.parse()
             resolver2 = Resolver(Composer(canonical))
             nodes2 = list(iter(resolver2))
             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(Constructor):

     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

 MyConstructor.add_constructor(None, MyConstructor.construct_scalar)

 class TestConstructor(test_appliance.TestAppliance):

     def _testConstructor(self, test_name, data_filename, canonical_filename):
         natives1 = None
         natives2 = None
         try:
             constructor1 = MyConstructor(Resolver(Composer(Parser(Scanner(Reader(file(data_filename, 'rb')))))))
             natives1 = list(iter(constructor1))
             canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
             canonical.parse()
             constructor2 = MyConstructor(Resolver(Composer(canonical)))
             natives2 = list(iter(constructor2))
             self.failUnlessEqual(natives1, natives2)
         except:
             print
             print "DATA1:"
             print file(data_filename, 'rb').read()
             print "DATA2:"
             print file(canonical_filename, 'rb').read()
             print "NATIVES1:", natives1
             print "NATIVES2:", natives2
             raise

 TestConstructor.add_tests('testConstructor', '.data', '.canonical')

 class TestParserOnCanonical(test_appliance.TestAppliance):

     def _testParserOnCanonical(self, test_name, canonical_filename):
         events1 = None
         events2 = None
         try:
             parser = Parser(Scanner(Reader(file(canonical_filename, 'rb'))))
             events1 = list(iter(parser))
             canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
             events2 = canonical.parse()
             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, CollectionEvent):
                 self.failUnlessEqual(event1.anchor, event2.anchor)
                 self.failUnlessEqual(event1.tag, event2.tag)

 TestParserOnCanonical.add_tests('testParserOnCanonical', '.canonical')

	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:
	parser = Parser(Scanner(Reader(file(data_filename, 'rb'))))
	node1 = []
	while not parser.check(StreamEndEvent):
	node1.append(self._convert(parser))
	parser.get()
	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, parser):
	if parser.check(ScalarEvent):
	event = parser.get()
	if event.tag or event.anchor or event.value:
	return True
	else:
	return None
	elif parser.check(SequenceEvent):
	parser.get()
	sequence = []
	while not parser.check(CollectionEndEvent):
	sequence.append(self._convert(parser))
	parser.get()
	return sequence
	elif parser.check(MappingEvent):
	parser.get()
	mapping = []
	while not parser.check(CollectionEndEvent):
	key = self._convert(parser)
	value = self._convert(parser)
	mapping.append((key, value))
	parser.get()
	return mapping
	elif parser.check(AliasEvent):
	parser.get()
	return '*'
	else:
	parser.get()
	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:
	parser = Parser(Scanner(Reader(file(data_filename, 'rb'))))
	events1 = list(iter(parser))
	canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
	events2 = canonical.parse()
	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, CollectionEvent):
	#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:
	resolver1 = Resolver(Composer(Parser(Scanner(Reader(file(data_filename, 'rb'))))))
	nodes1 = list(iter(resolver1))
	canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
	canonical.parse()
	resolver2 = Resolver(Composer(canonical))
	nodes2 = list(iter(resolver2))
	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(Constructor):

	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

	MyConstructor.add_constructor(None, MyConstructor.construct_scalar)

	class TestConstructor(test_appliance.TestAppliance):

	def _testConstructor(self, test_name, data_filename, canonical_filename):
	natives1 = None
	natives2 = None
	try:
	constructor1 = MyConstructor(Resolver(Composer(Parser(Scanner(Reader(file(data_filename, 'rb')))))))
	natives1 = list(iter(constructor1))
	canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
	canonical.parse()
	constructor2 = MyConstructor(Resolver(Composer(canonical)))
	natives2 = list(iter(constructor2))
	self.failUnlessEqual(natives1, natives2)
	except:
	print
	print "DATA1:"
	print file(data_filename, 'rb').read()
	print "DATA2:"
	print file(canonical_filename, 'rb').read()
	print "NATIVES1:", natives1
	print "NATIVES2:", natives2
	raise

	TestConstructor.add_tests('testConstructor', '.data', '.canonical')

	class TestParserOnCanonical(test_appliance.TestAppliance):

	def _testParserOnCanonical(self, test_name, canonical_filename):
	events1 = None
	events2 = None
	try:
	parser = Parser(Scanner(Reader(file(canonical_filename, 'rb'))))
	events1 = list(iter(parser))
	canonical = test_appliance.CanonicalParser(file(canonical_filename, 'rb').read())
	events2 = canonical.parse()
	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, CollectionEvent):
	self.failUnlessEqual(event1.anchor, event2.anchor)
	self.failUnlessEqual(event1.tag, event2.tag)

	TestParserOnCanonical.add_tests('testParserOnCanonical', '.canonical')