392 lines
14 KiB
Python
392 lines
14 KiB
Python
from _compat_pickle import (IMPORT_MAPPING, REVERSE_IMPORT_MAPPING,
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NAME_MAPPING, REVERSE_NAME_MAPPING)
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import builtins
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import pickle
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import io
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import collections
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import struct
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import sys
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import unittest
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from test import support
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from test.pickletester import AbstractPickleTests
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from test.pickletester import AbstractPickleModuleTests
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from test.pickletester import AbstractPersistentPicklerTests
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from test.pickletester import AbstractPicklerUnpicklerObjectTests
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from test.pickletester import AbstractDispatchTableTests
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from test.pickletester import BigmemPickleTests
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try:
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import _pickle
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has_c_implementation = True
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except ImportError:
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has_c_implementation = False
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class PickleTests(AbstractPickleModuleTests):
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pass
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class PyPicklerTests(AbstractPickleTests):
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pickler = pickle._Pickler
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unpickler = pickle._Unpickler
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def dumps(self, arg, proto=None):
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f = io.BytesIO()
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p = self.pickler(f, proto)
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p.dump(arg)
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f.seek(0)
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return bytes(f.read())
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def loads(self, buf, **kwds):
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f = io.BytesIO(buf)
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u = self.unpickler(f, **kwds)
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return u.load()
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class InMemoryPickleTests(AbstractPickleTests, BigmemPickleTests):
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pickler = pickle._Pickler
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unpickler = pickle._Unpickler
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def dumps(self, arg, protocol=None):
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return pickle.dumps(arg, protocol)
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def loads(self, buf, **kwds):
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return pickle.loads(buf, **kwds)
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class PyPersPicklerTests(AbstractPersistentPicklerTests):
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pickler = pickle._Pickler
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unpickler = pickle._Unpickler
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def dumps(self, arg, proto=None):
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class PersPickler(self.pickler):
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def persistent_id(subself, obj):
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return self.persistent_id(obj)
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f = io.BytesIO()
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p = PersPickler(f, proto)
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p.dump(arg)
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f.seek(0)
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return f.read()
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def loads(self, buf, **kwds):
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class PersUnpickler(self.unpickler):
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def persistent_load(subself, obj):
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return self.persistent_load(obj)
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f = io.BytesIO(buf)
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u = PersUnpickler(f, **kwds)
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return u.load()
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class PyPicklerUnpicklerObjectTests(AbstractPicklerUnpicklerObjectTests):
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pickler_class = pickle._Pickler
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unpickler_class = pickle._Unpickler
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class PyDispatchTableTests(AbstractDispatchTableTests):
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pickler_class = pickle._Pickler
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def get_dispatch_table(self):
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return pickle.dispatch_table.copy()
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class PyChainDispatchTableTests(AbstractDispatchTableTests):
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pickler_class = pickle._Pickler
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def get_dispatch_table(self):
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return collections.ChainMap({}, pickle.dispatch_table)
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if has_c_implementation:
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class CPicklerTests(PyPicklerTests):
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pickler = _pickle.Pickler
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unpickler = _pickle.Unpickler
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class CPersPicklerTests(PyPersPicklerTests):
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pickler = _pickle.Pickler
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unpickler = _pickle.Unpickler
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class CDumpPickle_LoadPickle(PyPicklerTests):
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pickler = _pickle.Pickler
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unpickler = pickle._Unpickler
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class DumpPickle_CLoadPickle(PyPicklerTests):
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pickler = pickle._Pickler
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unpickler = _pickle.Unpickler
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class CPicklerUnpicklerObjectTests(AbstractPicklerUnpicklerObjectTests):
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pickler_class = _pickle.Pickler
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unpickler_class = _pickle.Unpickler
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def test_issue18339(self):
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unpickler = self.unpickler_class(io.BytesIO())
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with self.assertRaises(TypeError):
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unpickler.memo = object
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# used to cause a segfault
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with self.assertRaises(ValueError):
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unpickler.memo = {-1: None}
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unpickler.memo = {1: None}
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class CDispatchTableTests(AbstractDispatchTableTests):
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pickler_class = pickle.Pickler
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def get_dispatch_table(self):
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return pickle.dispatch_table.copy()
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class CChainDispatchTableTests(AbstractDispatchTableTests):
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pickler_class = pickle.Pickler
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def get_dispatch_table(self):
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return collections.ChainMap({}, pickle.dispatch_table)
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@support.cpython_only
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class SizeofTests(unittest.TestCase):
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check_sizeof = support.check_sizeof
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def test_pickler(self):
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basesize = support.calcobjsize('5P2n3i2n3iP')
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p = _pickle.Pickler(io.BytesIO())
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self.assertEqual(object.__sizeof__(p), basesize)
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MT_size = struct.calcsize('3nP0n')
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ME_size = struct.calcsize('Pn0P')
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check = self.check_sizeof
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check(p, basesize +
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MT_size + 8 * ME_size + # Minimal memo table size.
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sys.getsizeof(b'x'*4096)) # Minimal write buffer size.
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for i in range(6):
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p.dump(chr(i))
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check(p, basesize +
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MT_size + 32 * ME_size + # Size of memo table required to
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# save references to 6 objects.
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0) # Write buffer is cleared after every dump().
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def test_unpickler(self):
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basesize = support.calcobjsize('2Pn2P 2P2n2i5P 2P3n6P2n2i')
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unpickler = _pickle.Unpickler
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P = struct.calcsize('P') # Size of memo table entry.
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n = struct.calcsize('n') # Size of mark table entry.
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check = self.check_sizeof
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for encoding in 'ASCII', 'UTF-16', 'latin-1':
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for errors in 'strict', 'replace':
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u = unpickler(io.BytesIO(),
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encoding=encoding, errors=errors)
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self.assertEqual(object.__sizeof__(u), basesize)
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check(u, basesize +
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32 * P + # Minimal memo table size.
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len(encoding) + 1 + len(errors) + 1)
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stdsize = basesize + len('ASCII') + 1 + len('strict') + 1
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def check_unpickler(data, memo_size, marks_size):
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dump = pickle.dumps(data)
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u = unpickler(io.BytesIO(dump),
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encoding='ASCII', errors='strict')
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u.load()
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check(u, stdsize + memo_size * P + marks_size * n)
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check_unpickler(0, 32, 0)
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# 20 is minimal non-empty mark stack size.
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check_unpickler([0] * 100, 32, 20)
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# 128 is memo table size required to save references to 100 objects.
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check_unpickler([chr(i) for i in range(100)], 128, 20)
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def recurse(deep):
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data = 0
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for i in range(deep):
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data = [data, data]
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return data
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check_unpickler(recurse(0), 32, 0)
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check_unpickler(recurse(1), 32, 20)
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check_unpickler(recurse(20), 32, 58)
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check_unpickler(recurse(50), 64, 58)
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check_unpickler(recurse(100), 128, 134)
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u = unpickler(io.BytesIO(pickle.dumps('a', 0)),
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encoding='ASCII', errors='strict')
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u.load()
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check(u, stdsize + 32 * P + 2 + 1)
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ALT_IMPORT_MAPPING = {
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('_elementtree', 'xml.etree.ElementTree'),
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('cPickle', 'pickle'),
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}
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ALT_NAME_MAPPING = {
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('__builtin__', 'basestring', 'builtins', 'str'),
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('exceptions', 'StandardError', 'builtins', 'Exception'),
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('UserDict', 'UserDict', 'collections', 'UserDict'),
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('socket', '_socketobject', 'socket', 'SocketType'),
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}
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def mapping(module, name):
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if (module, name) in NAME_MAPPING:
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module, name = NAME_MAPPING[(module, name)]
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elif module in IMPORT_MAPPING:
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module = IMPORT_MAPPING[module]
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return module, name
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def reverse_mapping(module, name):
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if (module, name) in REVERSE_NAME_MAPPING:
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module, name = REVERSE_NAME_MAPPING[(module, name)]
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elif module in REVERSE_IMPORT_MAPPING:
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module = REVERSE_IMPORT_MAPPING[module]
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return module, name
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def getmodule(module):
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try:
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return sys.modules[module]
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except KeyError:
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try:
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__import__(module)
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except AttributeError as exc:
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if support.verbose:
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print("Can't import module %r: %s" % (module, exc))
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raise ImportError
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except ImportError as exc:
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if support.verbose:
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print(exc)
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raise
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return sys.modules[module]
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def getattribute(module, name):
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obj = getmodule(module)
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for n in name.split('.'):
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obj = getattr(obj, n)
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return obj
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def get_exceptions(mod):
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for name in dir(mod):
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attr = getattr(mod, name)
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if isinstance(attr, type) and issubclass(attr, BaseException):
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yield name, attr
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class CompatPickleTests(unittest.TestCase):
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def test_import(self):
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modules = set(IMPORT_MAPPING.values())
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modules |= set(REVERSE_IMPORT_MAPPING)
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modules |= {module for module, name in REVERSE_NAME_MAPPING}
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modules |= {module for module, name in NAME_MAPPING.values()}
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for module in modules:
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try:
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getmodule(module)
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except ImportError:
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pass
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def test_import_mapping(self):
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for module3, module2 in REVERSE_IMPORT_MAPPING.items():
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with self.subTest((module3, module2)):
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try:
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getmodule(module3)
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except ImportError:
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pass
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if module3[:1] != '_':
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self.assertIn(module2, IMPORT_MAPPING)
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self.assertEqual(IMPORT_MAPPING[module2], module3)
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def test_name_mapping(self):
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for (module3, name3), (module2, name2) in REVERSE_NAME_MAPPING.items():
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with self.subTest(((module3, name3), (module2, name2))):
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if (module2, name2) == ('exceptions', 'OSError'):
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attr = getattribute(module3, name3)
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self.assertTrue(issubclass(attr, OSError))
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else:
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module, name = mapping(module2, name2)
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if module3[:1] != '_':
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self.assertEqual((module, name), (module3, name3))
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try:
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attr = getattribute(module3, name3)
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except ImportError:
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pass
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else:
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self.assertEqual(getattribute(module, name), attr)
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def test_reverse_import_mapping(self):
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for module2, module3 in IMPORT_MAPPING.items():
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with self.subTest((module2, module3)):
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try:
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getmodule(module3)
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except ImportError as exc:
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if support.verbose:
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print(exc)
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if ((module2, module3) not in ALT_IMPORT_MAPPING and
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REVERSE_IMPORT_MAPPING.get(module3, None) != module2):
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for (m3, n3), (m2, n2) in REVERSE_NAME_MAPPING.items():
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if (module3, module2) == (m3, m2):
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break
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else:
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self.fail('No reverse mapping from %r to %r' %
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(module3, module2))
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module = REVERSE_IMPORT_MAPPING.get(module3, module3)
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module = IMPORT_MAPPING.get(module, module)
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self.assertEqual(module, module3)
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def test_reverse_name_mapping(self):
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for (module2, name2), (module3, name3) in NAME_MAPPING.items():
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with self.subTest(((module2, name2), (module3, name3))):
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try:
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attr = getattribute(module3, name3)
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except ImportError:
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pass
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module, name = reverse_mapping(module3, name3)
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if (module2, name2, module3, name3) not in ALT_NAME_MAPPING:
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self.assertEqual((module, name), (module2, name2))
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module, name = mapping(module, name)
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self.assertEqual((module, name), (module3, name3))
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def test_exceptions(self):
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self.assertEqual(mapping('exceptions', 'StandardError'),
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('builtins', 'Exception'))
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self.assertEqual(mapping('exceptions', 'Exception'),
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('builtins', 'Exception'))
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self.assertEqual(reverse_mapping('builtins', 'Exception'),
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('exceptions', 'Exception'))
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self.assertEqual(mapping('exceptions', 'OSError'),
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('builtins', 'OSError'))
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self.assertEqual(reverse_mapping('builtins', 'OSError'),
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('exceptions', 'OSError'))
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for name, exc in get_exceptions(builtins):
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with self.subTest(name):
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if exc in (BlockingIOError,
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ResourceWarning,
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StopAsyncIteration):
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continue
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if exc is not OSError and issubclass(exc, OSError):
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self.assertEqual(reverse_mapping('builtins', name),
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('exceptions', 'OSError'))
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else:
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self.assertEqual(reverse_mapping('builtins', name),
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('exceptions', name))
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self.assertEqual(mapping('exceptions', name),
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('builtins', name))
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import multiprocessing.context
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for name, exc in get_exceptions(multiprocessing.context):
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with self.subTest(name):
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self.assertEqual(reverse_mapping('multiprocessing.context', name),
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('multiprocessing', name))
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self.assertEqual(mapping('multiprocessing', name),
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('multiprocessing.context', name))
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def test_main():
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tests = [PickleTests, PyPicklerTests, PyPersPicklerTests,
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PyDispatchTableTests, PyChainDispatchTableTests,
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CompatPickleTests]
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if has_c_implementation:
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tests.extend([CPicklerTests, CPersPicklerTests,
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CDumpPickle_LoadPickle, DumpPickle_CLoadPickle,
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PyPicklerUnpicklerObjectTests,
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CPicklerUnpicklerObjectTests,
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CDispatchTableTests, CChainDispatchTableTests,
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InMemoryPickleTests, SizeofTests])
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support.run_unittest(*tests)
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support.run_doctest(pickle)
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if __name__ == "__main__":
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test_main()
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