Lib/test/test_hash.py - platform/external/python/cpython3 - Gitiles

 # test the invariant that
 #   iff a==b then hash(a)==hash(b)
 #
 # Also test that hash implementations are inherited as expected

 import datetime
 import os
 import sys
 import unittest
 from test.script_helper import assert_python_ok
 from collections import Hashable

 IS_64BIT = sys.maxsize > 2**32


 class HashEqualityTestCase(unittest.TestCase):

     def same_hash(self, *objlist):
         # Hash each object given and fail if
         # the hash values are not all the same.
         hashed = list(map(hash, objlist))
         for h in hashed[1:]:
             if h != hashed[0]:
                 self.fail("hashed values differ: %r" % (objlist,))

     def test_numeric_literals(self):
         self.same_hash(1, 1, 1.0, 1.0+0.0j)
         self.same_hash(0, 0.0, 0.0+0.0j)
         self.same_hash(-1, -1.0, -1.0+0.0j)
         self.same_hash(-2, -2.0, -2.0+0.0j)

     def test_coerced_integers(self):
         self.same_hash(int(1), int(1), float(1), complex(1),
                        int('1'), float('1.0'))
         self.same_hash(int(-2**31), float(-2**31))
         self.same_hash(int(1-2**31), float(1-2**31))
         self.same_hash(int(2**31-1), float(2**31-1))
         # for 64-bit platforms
         self.same_hash(int(2**31), float(2**31))
         self.same_hash(int(-2**63), float(-2**63))
         self.same_hash(int(2**63), float(2**63))

     def test_coerced_floats(self):
         self.same_hash(int(1.23e300), float(1.23e300))
         self.same_hash(float(0.5), complex(0.5, 0.0))

     def test_unaligned_buffers(self):
         # The hash function for bytes-like objects shouldn't have
         # alignment-dependent results (example in issue #16427).
         b = b"123456789abcdefghijklmnopqrstuvwxyz" * 128
         for i in range(16):
             for j in range(16):
                 aligned = b[i:128+j]
                 unaligned = memoryview(b)[i:128+j]
                 self.assertEqual(hash(aligned), hash(unaligned))


 _default_hash = object.__hash__
 class DefaultHash(object): pass

 _FIXED_HASH_VALUE = 42
 class FixedHash(object):
     def __hash__(self):
         return _FIXED_HASH_VALUE

 class OnlyEquality(object):
     def __eq__(self, other):
         return self is other

 class OnlyInequality(object):
     def __ne__(self, other):
         return self is not other

 class InheritedHashWithEquality(FixedHash, OnlyEquality): pass
 class InheritedHashWithInequality(FixedHash, OnlyInequality): pass

 class NoHash(object):
     __hash__ = None

 class HashInheritanceTestCase(unittest.TestCase):
     default_expected = [object(),
                         DefaultHash(),
                         OnlyInequality(),
                        ]
     fixed_expected = [FixedHash(),
                       InheritedHashWithEquality(),
                       InheritedHashWithInequality(),
                       ]
     error_expected = [NoHash(),
                       OnlyEquality(),
                       ]

     def test_default_hash(self):
         for obj in self.default_expected:
             self.assertEqual(hash(obj), _default_hash(obj))

     def test_fixed_hash(self):
         for obj in self.fixed_expected:
             self.assertEqual(hash(obj), _FIXED_HASH_VALUE)

     def test_error_hash(self):
         for obj in self.error_expected:
             self.assertRaises(TypeError, hash, obj)

     def test_hashable(self):
         objects = (self.default_expected +
                    self.fixed_expected)
         for obj in objects:
             self.assertIsInstance(obj, Hashable)

     def test_not_hashable(self):
         for obj in self.error_expected:
             self.assertNotIsInstance(obj, Hashable)


 # Issue #4701: Check that some builtin types are correctly hashable
 class DefaultIterSeq(object):
     seq = range(10)
     def __len__(self):
         return len(self.seq)
     def __getitem__(self, index):
         return self.seq[index]

 class HashBuiltinsTestCase(unittest.TestCase):
     hashes_to_check = [enumerate(range(10)),
                        iter(DefaultIterSeq()),
                        iter(lambda: 0, 0),
                       ]

     def test_hashes(self):
         _default_hash = object.__hash__
         for obj in self.hashes_to_check:
             self.assertEqual(hash(obj), _default_hash(obj))

 class HashRandomizationTests:

     # Each subclass should define a field "repr_", containing the repr() of
     # an object to be tested

     def get_hash_command(self, repr_):
         return 'print(hash(%s))' % repr_

     def get_hash(self, repr_, seed=None):
         env = os.environ.copy()
         env['__cleanenv'] = True  # signal to assert_python not to do a copy
                                   # of os.environ on its own
         if seed is not None:
             env['PYTHONHASHSEED'] = str(seed)
         else:
             env.pop('PYTHONHASHSEED', None)
         out = assert_python_ok(
             '-c', self.get_hash_command(repr_),
             **env)
         stdout = out[1].strip()
         return int(stdout)

     def test_randomized_hash(self):
         # two runs should return different hashes
         run1 = self.get_hash(self.repr_, seed='random')
         run2 = self.get_hash(self.repr_, seed='random')
         self.assertNotEqual(run1, run2)

 class StringlikeHashRandomizationTests(HashRandomizationTests):
     def test_null_hash(self):
         # PYTHONHASHSEED=0 disables the randomized hash
         if IS_64BIT:
             known_hash_of_obj = 1453079729188098211
         else:
             known_hash_of_obj = -1600925533

         # Randomization is enabled by default:
         self.assertNotEqual(self.get_hash(self.repr_), known_hash_of_obj)

         # It can also be disabled by setting the seed to 0:
         self.assertEqual(self.get_hash(self.repr_, seed=0), known_hash_of_obj)

     def test_fixed_hash(self):
         # test a fixed seed for the randomized hash
         # Note that all types share the same values:
         if IS_64BIT:
             if sys.byteorder == 'little':
                 h = -4410911502303878509
             else:
                 h = -3570150969479994130
         else:
             if sys.byteorder == 'little':
                 h = -206076799
             else:
                 h = -1024014457
         self.assertEqual(self.get_hash(self.repr_, seed=42), h)

 class StrHashRandomizationTests(StringlikeHashRandomizationTests,
                                 unittest.TestCase):
     repr_ = repr('abc')

     def test_empty_string(self):
         self.assertEqual(hash(""), 0)

 class BytesHashRandomizationTests(StringlikeHashRandomizationTests,
                                   unittest.TestCase):
     repr_ = repr(b'abc')

     def test_empty_string(self):
         self.assertEqual(hash(b""), 0)

 class MemoryviewHashRandomizationTests(StringlikeHashRandomizationTests,
                                        unittest.TestCase):
     repr_ = "memoryview(b'abc')"

     def test_empty_string(self):
         self.assertEqual(hash(memoryview(b"")), 0)

 class DatetimeTests(HashRandomizationTests):
     def get_hash_command(self, repr_):
         return 'import datetime; print(hash(%s))' % repr_

 class DatetimeDateTests(DatetimeTests, unittest.TestCase):
     repr_ = repr(datetime.date(1066, 10, 14))

 class DatetimeDatetimeTests(DatetimeTests, unittest.TestCase):
     repr_ = repr(datetime.datetime(1, 2, 3, 4, 5, 6, 7))

 class DatetimeTimeTests(DatetimeTests, unittest.TestCase):
     repr_ = repr(datetime.time(0))


 if __name__ == "__main__":
     unittest.main()
	# test the invariant that
	# iff a==b then hash(a)==hash(b)
	#
	# Also test that hash implementations are inherited as expected

	import datetime
	import os
	import sys
	import unittest
	from test.script_helper import assert_python_ok
	from collections import Hashable

	IS_64BIT = sys.maxsize > 2**32


	class HashEqualityTestCase(unittest.TestCase):

	def same_hash(self, *objlist):
	# Hash each object given and fail if
	# the hash values are not all the same.
	hashed = list(map(hash, objlist))
	for h in hashed[1:]:
	if h != hashed[0]:
	self.fail("hashed values differ: %r" % (objlist,))

	def test_numeric_literals(self):
	self.same_hash(1, 1, 1.0, 1.0+0.0j)
	self.same_hash(0, 0.0, 0.0+0.0j)
	self.same_hash(-1, -1.0, -1.0+0.0j)
	self.same_hash(-2, -2.0, -2.0+0.0j)

	def test_coerced_integers(self):
	self.same_hash(int(1), int(1), float(1), complex(1),
	int('1'), float('1.0'))
	self.same_hash(int(-231), float(-231))
	self.same_hash(int(1-231), float(1-231))
	self.same_hash(int(231-1), float(231-1))
	# for 64-bit platforms
	self.same_hash(int(231), float(231))
	self.same_hash(int(-263), float(-263))
	self.same_hash(int(263), float(263))

	def test_coerced_floats(self):
	self.same_hash(int(1.23e300), float(1.23e300))
	self.same_hash(float(0.5), complex(0.5, 0.0))

	def test_unaligned_buffers(self):
	# The hash function for bytes-like objects shouldn't have
	# alignment-dependent results (example in issue #16427).
	b = b"123456789abcdefghijklmnopqrstuvwxyz" * 128
	for i in range(16):
	for j in range(16):
	aligned = b[i:128+j]
	unaligned = memoryview(b)[i:128+j]
	self.assertEqual(hash(aligned), hash(unaligned))


	_default_hash = object.__hash__
	class DefaultHash(object): pass

	_FIXED_HASH_VALUE = 42
	class FixedHash(object):
	def __hash__(self):
	return _FIXED_HASH_VALUE

	class OnlyEquality(object):
	def __eq__(self, other):
	return self is other

	class OnlyInequality(object):
	def __ne__(self, other):
	return self is not other

	class InheritedHashWithEquality(FixedHash, OnlyEquality): pass
	class InheritedHashWithInequality(FixedHash, OnlyInequality): pass

	class NoHash(object):
	__hash__ = None

	class HashInheritanceTestCase(unittest.TestCase):
	default_expected = [object(),
	DefaultHash(),
	OnlyInequality(),
	]
	fixed_expected = [FixedHash(),
	InheritedHashWithEquality(),
	InheritedHashWithInequality(),
	]
	error_expected = [NoHash(),
	OnlyEquality(),
	]

	def test_default_hash(self):
	for obj in self.default_expected:
	self.assertEqual(hash(obj), _default_hash(obj))

	def test_fixed_hash(self):
	for obj in self.fixed_expected:
	self.assertEqual(hash(obj), _FIXED_HASH_VALUE)

	def test_error_hash(self):
	for obj in self.error_expected:
	self.assertRaises(TypeError, hash, obj)

	def test_hashable(self):
	objects = (self.default_expected +
	self.fixed_expected)
	for obj in objects:
	self.assertIsInstance(obj, Hashable)

	def test_not_hashable(self):
	for obj in self.error_expected:
	self.assertNotIsInstance(obj, Hashable)


	# Issue #4701: Check that some builtin types are correctly hashable
	class DefaultIterSeq(object):
	seq = range(10)
	def __len__(self):
	return len(self.seq)
	def __getitem__(self, index):
	return self.seq[index]

	class HashBuiltinsTestCase(unittest.TestCase):
	hashes_to_check = [enumerate(range(10)),
	iter(DefaultIterSeq()),
	iter(lambda: 0, 0),
	]

	def test_hashes(self):
	_default_hash = object.__hash__
	for obj in self.hashes_to_check:
	self.assertEqual(hash(obj), _default_hash(obj))

	class HashRandomizationTests:

	# Each subclass should define a field "repr_", containing the repr() of
	# an object to be tested

	def get_hash_command(self, repr_):
	return 'print(hash(%s))' % repr_

	def get_hash(self, repr_, seed=None):
	env = os.environ.copy()
	env['__cleanenv'] = True # signal to assert_python not to do a copy
	# of os.environ on its own
	if seed is not None:
	env['PYTHONHASHSEED'] = str(seed)
	else:
	env.pop('PYTHONHASHSEED', None)
	out = assert_python_ok(
	'-c', self.get_hash_command(repr_),
	**env)
	stdout = out[1].strip()
	return int(stdout)

	def test_randomized_hash(self):
	# two runs should return different hashes
	run1 = self.get_hash(self.repr_, seed='random')
	run2 = self.get_hash(self.repr_, seed='random')
	self.assertNotEqual(run1, run2)

	class StringlikeHashRandomizationTests(HashRandomizationTests):
	def test_null_hash(self):
	# PYTHONHASHSEED=0 disables the randomized hash
	if IS_64BIT:
	known_hash_of_obj = 1453079729188098211
	else:
	known_hash_of_obj = -1600925533

	# Randomization is enabled by default:
	self.assertNotEqual(self.get_hash(self.repr_), known_hash_of_obj)

	# It can also be disabled by setting the seed to 0:
	self.assertEqual(self.get_hash(self.repr_, seed=0), known_hash_of_obj)

	def test_fixed_hash(self):
	# test a fixed seed for the randomized hash
	# Note that all types share the same values:
	if IS_64BIT:
	if sys.byteorder == 'little':
	h = -4410911502303878509
	else:
	h = -3570150969479994130
	else:
	if sys.byteorder == 'little':
	h = -206076799
	else:
	h = -1024014457
	self.assertEqual(self.get_hash(self.repr_, seed=42), h)

	class StrHashRandomizationTests(StringlikeHashRandomizationTests,
	unittest.TestCase):
	repr_ = repr('abc')

	def test_empty_string(self):
	self.assertEqual(hash(""), 0)

	class BytesHashRandomizationTests(StringlikeHashRandomizationTests,
	unittest.TestCase):
	repr_ = repr(b'abc')

	def test_empty_string(self):
	self.assertEqual(hash(b""), 0)

	class MemoryviewHashRandomizationTests(StringlikeHashRandomizationTests,
	unittest.TestCase):
	repr_ = "memoryview(b'abc')"

	def test_empty_string(self):
	self.assertEqual(hash(memoryview(b"")), 0)

	class DatetimeTests(HashRandomizationTests):
	def get_hash_command(self, repr_):
	return 'import datetime; print(hash(%s))' % repr_

	class DatetimeDateTests(DatetimeTests, unittest.TestCase):
	repr_ = repr(datetime.date(1066, 10, 14))

	class DatetimeDatetimeTests(DatetimeTests, unittest.TestCase):
	repr_ = repr(datetime.datetime(1, 2, 3, 4, 5, 6, 7))

	class DatetimeTimeTests(DatetimeTests, unittest.TestCase):
	repr_ = repr(datetime.time(0))


	if __name__ == "__main__":
	unittest.main()