lib/python2.7/test/test_copy_reg.py - platform/prebuilts/gdb/darwin-x86 - Git at Google

 import copy_reg
 import unittest

 from test import test_support
 from test.pickletester import ExtensionSaver

 class C:
     pass


 class WithoutSlots(object):
     pass

 class WithWeakref(object):
     __slots__ = ('__weakref__',)

 class WithPrivate(object):
     __slots__ = ('__spam',)

 class WithSingleString(object):
     __slots__ = 'spam'

 class WithInherited(WithSingleString):
     __slots__ = ('eggs',)


 class CopyRegTestCase(unittest.TestCase):

     def test_class(self):
         self.assertRaises(TypeError, copy_reg.pickle,
                           C, None, None)

     def test_noncallable_reduce(self):
         self.assertRaises(TypeError, copy_reg.pickle,
                           type(1), "not a callable")

     def test_noncallable_constructor(self):
         self.assertRaises(TypeError, copy_reg.pickle,
                           type(1), int, "not a callable")

     def test_bool(self):
         import copy
         self.assertEqual(True, copy.copy(True))

     def test_extension_registry(self):
         mod, func, code = 'junk1 ', ' junk2', 0xabcd
         e = ExtensionSaver(code)
         try:
             # Shouldn't be in registry now.
             self.assertRaises(ValueError, copy_reg.remove_extension,
                               mod, func, code)
             copy_reg.add_extension(mod, func, code)
             # Should be in the registry.
             self.assertTrue(copy_reg._extension_registry[mod, func] == code)
             self.assertTrue(copy_reg._inverted_registry[code] == (mod, func))
             # Shouldn't be in the cache.
             self.assertNotIn(code, copy_reg._extension_cache)
             # Redundant registration should be OK.
             copy_reg.add_extension(mod, func, code)  # shouldn't blow up
             # Conflicting code.
             self.assertRaises(ValueError, copy_reg.add_extension,
                               mod, func, code + 1)
             self.assertRaises(ValueError, copy_reg.remove_extension,
                               mod, func, code + 1)
             # Conflicting module name.
             self.assertRaises(ValueError, copy_reg.add_extension,
                               mod[1:], func, code )
             self.assertRaises(ValueError, copy_reg.remove_extension,
                               mod[1:], func, code )
             # Conflicting function name.
             self.assertRaises(ValueError, copy_reg.add_extension,
                               mod, func[1:], code)
             self.assertRaises(ValueError, copy_reg.remove_extension,
                               mod, func[1:], code)
             # Can't remove one that isn't registered at all.
             if code + 1 not in copy_reg._inverted_registry:
                 self.assertRaises(ValueError, copy_reg.remove_extension,
                                   mod[1:], func[1:], code + 1)

         finally:
             e.restore()

         # Shouldn't be there anymore.
         self.assertNotIn((mod, func), copy_reg._extension_registry)
         # The code *may* be in copy_reg._extension_registry, though, if
         # we happened to pick on a registered code.  So don't check for
         # that.

         # Check valid codes at the limits.
         for code in 1, 0x7fffffff:
             e = ExtensionSaver(code)
             try:
                 copy_reg.add_extension(mod, func, code)
                 copy_reg.remove_extension(mod, func, code)
             finally:
                 e.restore()

         # Ensure invalid codes blow up.
         for code in -1, 0, 0x80000000L:
             self.assertRaises(ValueError, copy_reg.add_extension,
                               mod, func, code)

     def test_slotnames(self):
         self.assertEqual(copy_reg._slotnames(WithoutSlots), [])
         self.assertEqual(copy_reg._slotnames(WithWeakref), [])
         expected = ['_WithPrivate__spam']
         self.assertEqual(copy_reg._slotnames(WithPrivate), expected)
         self.assertEqual(copy_reg._slotnames(WithSingleString), ['spam'])
         expected = ['eggs', 'spam']
         expected.sort()
         result = copy_reg._slotnames(WithInherited)
         result.sort()
         self.assertEqual(result, expected)


 def test_main():
     test_support.run_unittest(CopyRegTestCase)


 if __name__ == "__main__":
     test_main()
	import copy_reg
	import unittest

	from test import test_support
	from test.pickletester import ExtensionSaver

	class C:
	pass


	class WithoutSlots(object):
	pass

	class WithWeakref(object):
	__slots__ = ('__weakref__',)

	class WithPrivate(object):
	__slots__ = ('__spam',)

	class WithSingleString(object):
	__slots__ = 'spam'

	class WithInherited(WithSingleString):
	__slots__ = ('eggs',)


	class CopyRegTestCase(unittest.TestCase):

	def test_class(self):
	self.assertRaises(TypeError, copy_reg.pickle,
	C, None, None)

	def test_noncallable_reduce(self):
	self.assertRaises(TypeError, copy_reg.pickle,
	type(1), "not a callable")

	def test_noncallable_constructor(self):
	self.assertRaises(TypeError, copy_reg.pickle,
	type(1), int, "not a callable")

	def test_bool(self):
	import copy
	self.assertEqual(True, copy.copy(True))

	def test_extension_registry(self):
	mod, func, code = 'junk1 ', ' junk2', 0xabcd
	e = ExtensionSaver(code)
	try:
	# Shouldn't be in registry now.
	self.assertRaises(ValueError, copy_reg.remove_extension,
	mod, func, code)
	copy_reg.add_extension(mod, func, code)
	# Should be in the registry.
	self.assertTrue(copy_reg._extension_registry[mod, func] == code)
	self.assertTrue(copy_reg._inverted_registry[code] == (mod, func))
	# Shouldn't be in the cache.
	self.assertNotIn(code, copy_reg._extension_cache)
	# Redundant registration should be OK.
	copy_reg.add_extension(mod, func, code) # shouldn't blow up
	# Conflicting code.
	self.assertRaises(ValueError, copy_reg.add_extension,
	mod, func, code + 1)
	self.assertRaises(ValueError, copy_reg.remove_extension,
	mod, func, code + 1)
	# Conflicting module name.
	self.assertRaises(ValueError, copy_reg.add_extension,
	mod[1:], func, code )
	self.assertRaises(ValueError, copy_reg.remove_extension,
	mod[1:], func, code )
	# Conflicting function name.
	self.assertRaises(ValueError, copy_reg.add_extension,
	mod, func[1:], code)
	self.assertRaises(ValueError, copy_reg.remove_extension,
	mod, func[1:], code)
	# Can't remove one that isn't registered at all.
	if code + 1 not in copy_reg._inverted_registry:
	self.assertRaises(ValueError, copy_reg.remove_extension,
	mod[1:], func[1:], code + 1)

	finally:
	e.restore()

	# Shouldn't be there anymore.
	self.assertNotIn((mod, func), copy_reg._extension_registry)
	# The code may be in copy_reg._extension_registry, though, if
	# we happened to pick on a registered code. So don't check for
	# that.

	# Check valid codes at the limits.
	for code in 1, 0x7fffffff:
	e = ExtensionSaver(code)
	try:
	copy_reg.add_extension(mod, func, code)
	copy_reg.remove_extension(mod, func, code)
	finally:
	e.restore()

	# Ensure invalid codes blow up.
	for code in -1, 0, 0x80000000L:
	self.assertRaises(ValueError, copy_reg.add_extension,
	mod, func, code)

	def test_slotnames(self):
	self.assertEqual(copy_reg._slotnames(WithoutSlots), [])
	self.assertEqual(copy_reg._slotnames(WithWeakref), [])
	expected = ['_WithPrivate__spam']
	self.assertEqual(copy_reg._slotnames(WithPrivate), expected)
	self.assertEqual(copy_reg._slotnames(WithSingleString), ['spam'])
	expected = ['eggs', 'spam']
	expected.sort()
	result = copy_reg._slotnames(WithInherited)
	result.sort()
	self.assertEqual(result, expected)


	def test_main():
	test_support.run_unittest(CopyRegTestCase)


	if __name__ == "__main__":
	test_main()