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Python pickle.TUPLE屬性代碼示例

本文整理匯總了Python中pickle.TUPLE屬性的典型用法代碼示例。如果您正苦於以下問題:Python pickle.TUPLE屬性的具體用法?Python pickle.TUPLE怎麽用?Python pickle.TUPLE使用的例子?那麽, 這裏精選的屬性代碼示例或許可以為您提供幫助。您也可以進一步了解該屬性所在pickle的用法示例。


在下文中一共展示了pickle.TUPLE屬性的13個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Python代碼示例。

示例1: test_bad_stack

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def test_bad_stack(self):
        badpickles = [
            '.',                        # STOP
            '0',                        # POP
            '1',                        # POP_MARK
            '2',                        # DUP
            # '(2',                     # PyUnpickler doesn't raise
            'R',                        # REDUCE
            ')R',
            'a',                        # APPEND
            'Na',
            'b',                        # BUILD
            'Nb',
            'd',                        # DICT
            'e',                        # APPENDS
            # '(e',                     # PyUnpickler raises AttributeError
            'i__builtin__\nlist\n',     # INST
            'l',                        # LIST
            'o',                        # OBJ
            '(o',
            'p1\n',                     # PUT
            'q\x00',                    # BINPUT
            'r\x00\x00\x00\x00',        # LONG_BINPUT
            's',                        # SETITEM
            'Ns',
            'NNs',
            't',                        # TUPLE
            'u',                        # SETITEMS
            # '(u',                     # PyUnpickler doesn't raise
            '}(Nu',
            '\x81',                     # NEWOBJ
            ')\x81',
            '\x85',                     # TUPLE1
            '\x86',                     # TUPLE2
            'N\x86',
            '\x87',                     # TUPLE3
            'N\x87',
            'NN\x87',
        ]
        for p in badpickles:
            self.check_unpickling_error(self.bad_stack_errors, p) 
開發者ID:IronLanguages,項目名稱:ironpython2,代碼行數:43,代碼來源:pickletester.py

示例2: test_short_tuples

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def test_short_tuples(self):
        # Map (proto, len(tuple)) to expected opcode.
        expected_opcode = {(0, 0): pickle.TUPLE,
                           (0, 1): pickle.TUPLE,
                           (0, 2): pickle.TUPLE,
                           (0, 3): pickle.TUPLE,
                           (0, 4): pickle.TUPLE,

                           (1, 0): pickle.EMPTY_TUPLE,
                           (1, 1): pickle.TUPLE,
                           (1, 2): pickle.TUPLE,
                           (1, 3): pickle.TUPLE,
                           (1, 4): pickle.TUPLE,

                           (2, 0): pickle.EMPTY_TUPLE,
                           (2, 1): pickle.TUPLE1,
                           (2, 2): pickle.TUPLE2,
                           (2, 3): pickle.TUPLE3,
                           (2, 4): pickle.TUPLE,
                          }
        a = ()
        b = (1,)
        c = (1, 2)
        d = (1, 2, 3)
        e = (1, 2, 3, 4)
        for proto in protocols:
            for x in a, b, c, d, e:
                s = self.dumps(x, proto)
                y = self.loads(s)
                self.assertEqual(x, y, (proto, x, s, y))
                expected = expected_opcode[proto, len(x)]
                self.assertEqual(opcode_in_pickle(expected, s), True) 
開發者ID:IronLanguages,項目名稱:ironpython2,代碼行數:34,代碼來源:pickletester.py

示例3: test_short_tuples

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def test_short_tuples(self):
        # Map (proto, len(tuple)) to expected opcode.
        expected_opcode = {(0, 0): pickle.TUPLE,
                           (0, 1): pickle.TUPLE,
                           (0, 2): pickle.TUPLE,
                           (0, 3): pickle.TUPLE,
                           (0, 4): pickle.TUPLE,

                           (1, 0): pickle.EMPTY_TUPLE,
                           (1, 1): pickle.TUPLE,
                           (1, 2): pickle.TUPLE,
                           (1, 3): pickle.TUPLE,
                           (1, 4): pickle.TUPLE,

                           (2, 0): pickle.EMPTY_TUPLE,
                           (2, 1): pickle.TUPLE1,
                           (2, 2): pickle.TUPLE2,
                           (2, 3): pickle.TUPLE3,
                           (2, 4): pickle.TUPLE,

                           (3, 0): pickle.EMPTY_TUPLE,
                           (3, 1): pickle.TUPLE1,
                           (3, 2): pickle.TUPLE2,
                           (3, 3): pickle.TUPLE3,
                           (3, 4): pickle.TUPLE,
                          }
        a = ()
        b = (1,)
        c = (1, 2)
        d = (1, 2, 3)
        e = (1, 2, 3, 4)
        for proto in protocols:
            for x in a, b, c, d, e:
                s = self.dumps(x, proto)
                y = self.loads(s)
                self.assert_is_copy(x, y)
                expected = expected_opcode[min(proto, 3), len(x)]
                self.assertTrue(opcode_in_pickle(expected, s)) 
開發者ID:Microvellum,項目名稱:Fluid-Designer,代碼行數:40,代碼來源:pickletester.py

示例4: save_dynamic_class

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_dynamic_class(self, obj):
        """
        Save a class that can't be stored as module global.
        This method is used to serialize classes that are defined inside
        functions, or that otherwise can't be serialized as attribute lookups
        from global modules.
        """
        clsdict = dict(obj.__dict__)  # copy dict proxy to a dict
        clsdict.pop('__weakref__', None)

        # On PyPy, __doc__ is a readonly attribute, so we need to include it in
        # the initial skeleton class.  This is safe because we know that the
        # doc can't participate in a cycle with the original class.
        type_kwargs = {'__doc__': clsdict.pop('__doc__', None)}

        # If type overrides __dict__ as a property, include it in the type kwargs.
        # In Python 2, we can't set this attribute after construction.
        __dict__ = clsdict.pop('__dict__', None)
        if isinstance(__dict__, property):
            type_kwargs['__dict__'] = __dict__

        save = self.save
        write = self.write

        # We write pickle instructions explicitly here to handle the
        # possibility that the type object participates in a cycle with its own
        # __dict__. We first write an empty "skeleton" version of the class and
        # memoize it before writing the class' __dict__ itself. We then write
        # instructions to "rehydrate" the skeleton class by restoring the
        # attributes from the __dict__.
        #
        # A type can appear in a cycle with its __dict__ if an instance of the
        # type appears in the type's __dict__ (which happens for the stdlib
        # Enum class), or if the type defines methods that close over the name
        # of the type, (which is utils for Python 2-style super() calls).

        # Push the rehydration function.
        save(_rehydrate_skeleton_class)

        # Mark the start of the args tuple for the rehydration function.
        write(pickle.MARK)

        # Create and memoize an skeleton class with obj's name and bases.
        tp = type(obj)
        self.save_reduce(tp, (obj.__name__, obj.__bases__, type_kwargs), obj=obj)

        # Now save the rest of obj's __dict__. Any references to obj
        # encountered while saving will point to the skeleton class.
        save(clsdict)

        # Write a tuple of (skeleton_class, clsdict).
        write(pickle.TUPLE)

        # Call _rehydrate_skeleton_class(skeleton_class, clsdict)
        write(pickle.REDUCE) 
開發者ID:FederatedAI,項目名稱:FATE,代碼行數:57,代碼來源:cloudpickle.py

示例5: save_function_tuple

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_function_tuple(self, func):
        """  Pickles an actual func object.
        A func comprises: code, globals, defaults, closure, and dict.  We
        extract and save these, injecting reducing functions at certain points
        to recreate the func object.  Keep in mind that some of these pieces
        can contain a ref to the func itself.  Thus, a naive save on these
        pieces could trigger an infinite loop of save's.  To get around that,
        we first create a skeleton func object using just the code (this is
        safe, since this won't contain a ref to the func), and memoize it as
        soon as it's created.  The other stuff can then be filled in later.
        """
        if is_tornado_coroutine(func):
            self.save_reduce(_rebuild_tornado_coroutine, (func.__wrapped__,),
                             obj=func)
            return

        save = self.save
        write = self.write

        code, f_globals, defaults, closure_values, dct, base_globals = self.extract_func_data(func)

        save(_fill_function)  # skeleton function updater
        write(pickle.MARK)  # beginning of tuple that _fill_function expects

        self._save_subimports(
            code,
            itertools.chain(f_globals.values(), closure_values or ()),
        )

        # create a skeleton function object and memoize it
        save(_make_skel_func)
        save((
            code,
            len(closure_values) if closure_values is not None else -1,
            base_globals,
        ))
        write(pickle.REDUCE)
        self.memoize(func)

        # save the rest of the func data needed by _fill_function
        state = {
            'globals': f_globals,
            'defaults': defaults,
            'dict': dct,
            'module': func.__module__,
            'closure_values': closure_values,
        }
        if hasattr(func, '__qualname__'):
            state['qualname'] = func.__qualname__
        save(state)
        write(pickle.TUPLE)
        write(pickle.REDUCE)  # applies _fill_function on the tuple 
開發者ID:FederatedAI,項目名稱:FATE,代碼行數:54,代碼來源:cloudpickle.py

示例6: save_dynamic_class

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_dynamic_class(self, obj):
        """
        Save a class that can't be stored as module global.

        This method is used to serialize classes that are defined inside
        functions, or that otherwise can't be serialized as attribute lookups
        from global modules.
        """
        clsdict = dict(obj.__dict__)  # copy dict proxy to a dict
        clsdict.pop('__weakref__', None)

        # On PyPy, __doc__ is a readonly attribute, so we need to include it in
        # the initial skeleton class.  This is safe because we know that the
        # doc can't participate in a cycle with the original class.
        type_kwargs = {'__doc__': clsdict.pop('__doc__', None)}

        # If type overrides __dict__ as a property, include it in the type kwargs.
        # In Python 2, we can't set this attribute after construction.
        __dict__ = clsdict.pop('__dict__', None)
        if isinstance(__dict__, property):
            type_kwargs['__dict__'] = __dict__

        save = self.save
        write = self.write

        # We write pickle instructions explicitly here to handle the
        # possibility that the type object participates in a cycle with its own
        # __dict__. We first write an empty "skeleton" version of the class and
        # memoize it before writing the class' __dict__ itself. We then write
        # instructions to "rehydrate" the skeleton class by restoring the
        # attributes from the __dict__.
        #
        # A type can appear in a cycle with its __dict__ if an instance of the
        # type appears in the type's __dict__ (which happens for the stdlib
        # Enum class), or if the type defines methods that close over the name
        # of the type, (which is common for Python 2-style super() calls).

        # Push the rehydration function.
        save(_rehydrate_skeleton_class)

        # Mark the start of the args tuple for the rehydration function.
        write(pickle.MARK)

        # Create and memoize an skeleton class with obj's name and bases.
        tp = type(obj)
        self.save_reduce(tp, (obj.__name__, obj.__bases__, type_kwargs), obj=obj)

        # Now save the rest of obj's __dict__. Any references to obj
        # encountered while saving will point to the skeleton class.
        save(clsdict)

        # Write a tuple of (skeleton_class, clsdict).
        write(pickle.TUPLE)

        # Call _rehydrate_skeleton_class(skeleton_class, clsdict)
        write(pickle.REDUCE) 
開發者ID:runawayhorse001,項目名稱:LearningApacheSpark,代碼行數:58,代碼來源:cloudpickle.py

示例7: save_function_tuple

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_function_tuple(self, func):
        """  Pickles an actual func object.

        A func comprises: code, globals, defaults, closure, and dict.  We
        extract and save these, injecting reducing functions at certain points
        to recreate the func object.  Keep in mind that some of these pieces
        can contain a ref to the func itself.  Thus, a naive save on these
        pieces could trigger an infinite loop of save's.  To get around that,
        we first create a skeleton func object using just the code (this is
        safe, since this won't contain a ref to the func), and memoize it as
        soon as it's created.  The other stuff can then be filled in later.
        """
        if is_tornado_coroutine(func):
            self.save_reduce(_rebuild_tornado_coroutine, (func.__wrapped__,),
                             obj=func)
            return

        save = self.save
        write = self.write

        code, f_globals, defaults, closure_values, dct, base_globals = self.extract_func_data(func)

        save(_fill_function)  # skeleton function updater
        write(pickle.MARK)    # beginning of tuple that _fill_function expects

        self._save_subimports(
            code,
            itertools.chain(f_globals.values(), closure_values or ()),
        )

        # create a skeleton function object and memoize it
        save(_make_skel_func)
        save((
            code,
            len(closure_values) if closure_values is not None else -1,
            base_globals,
        ))
        write(pickle.REDUCE)
        self.memoize(func)

        # save the rest of the func data needed by _fill_function
        state = {
            'globals': f_globals,
            'defaults': defaults,
            'dict': dct,
            'module': func.__module__,
            'closure_values': closure_values,
        }
        if hasattr(func, '__qualname__'):
            state['qualname'] = func.__qualname__
        save(state)
        write(pickle.TUPLE)
        write(pickle.REDUCE)  # applies _fill_function on the tuple 
開發者ID:runawayhorse001,項目名稱:LearningApacheSpark,代碼行數:55,代碼來源:cloudpickle.py

示例8: test_bad_stack

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def test_bad_stack(self):
        badpickles = [
            b'.',                       # STOP
            b'0',                       # POP
            b'1',                       # POP_MARK
            b'2',                       # DUP
            # b'(2',                    # PyUnpickler doesn't raise
            b'R',                       # REDUCE
            b')R',
            b'a',                       # APPEND
            b'Na',
            b'b',                       # BUILD
            b'Nb',
            b'd',                       # DICT
            b'e',                       # APPENDS
            # b'(e',                    # PyUnpickler raises AttributeError
            b'ibuiltins\nlist\n',       # INST
            b'l',                       # LIST
            b'o',                       # OBJ
            b'(o',
            b'p1\n',                    # PUT
            b'q\x00',                   # BINPUT
            b'r\x00\x00\x00\x00',       # LONG_BINPUT
            b's',                       # SETITEM
            b'Ns',
            b'NNs',
            b't',                       # TUPLE
            b'u',                       # SETITEMS
            # b'(u',                    # PyUnpickler doesn't raise
            b'}(Nu',
            b'\x81',                    # NEWOBJ
            b')\x81',
            b'\x85',                    # TUPLE1
            b'\x86',                    # TUPLE2
            b'N\x86',
            b'\x87',                    # TUPLE3
            b'N\x87',
            b'NN\x87',
            b'\x90',                    # ADDITEMS
            # b'(\x90',                 # PyUnpickler raises AttributeError
            b'\x91',                    # FROZENSET
            b'\x92',                    # NEWOBJ_EX
            b')}\x92',
            b'\x93',                    # STACK_GLOBAL
            b'Vlist\n\x93',
            b'\x94',                    # MEMOIZE
        ]
        for p in badpickles:
            self.check_unpickling_error(self.bad_stack_errors, p) 
開發者ID:IronLanguages,項目名稱:ironpython3,代碼行數:51,代碼來源:pickletester.py

示例9: save_function_tuple

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_function_tuple(self, func):
        """  Pickles an actual func object.

        A func comprises: code, globals, defaults, closure, and dict.  We
        extract and save these, injecting reducing functions at certain points
        to recreate the func object.  Keep in mind that some of these pieces
        can contain a ref to the func itself.  Thus, a naive save on these
        pieces could trigger an infinite loop of save's.  To get around that,
        we first create a skeleton func object using just the code (this is
        safe, since this won't contain a ref to the func), and memoize it as
        soon as it's created.  The other stuff can then be filled in later.
        """
        if is_tornado_coroutine(func):
            self.save_reduce(_rebuild_tornado_coroutine, (func.__wrapped__,),
                             obj=func)
            return

        save = self.save
        write = self.write

        code, f_globals, defaults, closure_values, dct, base_globals = self.extract_func_data(func)

        save(_fill_function)  # skeleton function updater
        write(pickle.MARK)    # beginning of tuple that _fill_function expects

        self._save_subimports(
            code,
            itertools.chain(f_globals.values(), closure_values or ()),
        )

        # create a skeleton function object and memoize it
        save(_make_skel_func)
        save((
            code,
            len(closure_values) if closure_values is not None else -1,
            base_globals,
        ))
        write(pickle.REDUCE)
        self.memoize(func)

        # save the rest of the func data needed by _fill_function
        state = {
            'globals': f_globals,
            'defaults': defaults,
            'dict': dct,
            'closure_values': closure_values,
            'module': func.__module__,
            'name': func.__name__,
            'doc': func.__doc__,
        }
        if hasattr(func, '__annotations__') and sys.version_info >= (3, 7):
            state['annotations'] = func.__annotations__
        if hasattr(func, '__qualname__'):
            state['qualname'] = func.__qualname__
        if hasattr(func, '__kwdefaults__'):
            state['kwdefaults'] = func.__kwdefaults__
        save(state)
        write(pickle.TUPLE)
        write(pickle.REDUCE)  # applies _fill_function on the tuple 
開發者ID:bentoml,項目名稱:BentoML,代碼行數:61,代碼來源:cloudpickle.py

示例10: save_function_tuple

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_function_tuple(self, func, forced_imports):
        """  Pickles an actual func object.

        A func comprises: code, globals, defaults, closure, and dict.  We
        extract and save these, injecting reducing functions at certain points
        to recreate the func object.  Keep in mind that some of these pieces
        can contain a ref to the func itself.  Thus, a naive save on these
        pieces could trigger an infinite loop of save's.  To get around that,
        we first create a skeleton func object using just the code (this is
        safe, since this won't contain a ref to the func), and memoize it as
        soon as it's created.  The other stuff can then be filled in later.
        """
        save = self.save
        write = self.write

        # save the modules (if any)
        if forced_imports:
            write(pickle.MARK)
            save(_modules_to_main)
            #print 'forced imports are', forced_imports

            forced_names = map(lambda m: m.__name__, forced_imports)
            save((forced_names,))

            #save((forced_imports,))
            write(pickle.REDUCE)
            write(pickle.POP_MARK)

        code, f_globals, defaults, closure, dct, base_globals = self.extract_func_data(func)

        save(_fill_function)  # skeleton function updater
        write(pickle.MARK)    # beginning of tuple that _fill_function expects

        # create a skeleton function object and memoize it
        save(_make_skel_func)
        save((code, len(closure), base_globals))
        write(pickle.REDUCE)
        self.memoize(func)

        # save the rest of the func data needed by _fill_function
        save(f_globals)
        save(defaults)
        save(closure)
        save(dct)
        write(pickle.TUPLE)
        write(pickle.REDUCE)  # applies _fill_function on the tuple 
開發者ID:adobe-research,項目名稱:spark-cluster-deployment,代碼行數:48,代碼來源:cloudpickle.py

示例11: save_function_tuple

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_function_tuple(self, func):
        """  Pickles an actual func object.

        A func comprises: code, globals, defaults, closure, and dict.  We
        extract and save these, injecting reducing functions at certain points
        to recreate the func object.  Keep in mind that some of these pieces
        can contain a ref to the func itself.  Thus, a naive save on these
        pieces could trigger an infinite loop of save's.  To get around that,
        we first create a skeleton func object using just the code (this is
        safe, since this won't contain a ref to the func), and memoize it as
        soon as it's created.  The other stuff can then be filled in later.
        """
        if is_tornado_coroutine(func):
            self.save_reduce(_rebuild_tornado_coroutine, (func.__wrapped__,),
                             obj=func)
            return

        save = self.save
        write = self.write

        code, f_globals, defaults, closure_values, dct, base_globals = self.extract_func_data(func)

        save(_fill_function)  # skeleton function updater
        write(pickle.MARK)    # beginning of tuple that _fill_function expects

        self._save_subimports(
            code,
            itertools.chain(f_globals.values(), closure_values or ()),
        )

        # create a skeleton function object and memoize it
        save(_make_skel_func)
        save((
            code,
            len(closure_values) if closure_values is not None else -1,
            base_globals,
        ))
        write(pickle.REDUCE)
        self.memoize(func)

        # save the rest of the func data needed by _fill_function
        save(f_globals)
        save(defaults)
        save(dct)
        save(func.__module__)
        save(closure_values)
        write(pickle.TUPLE)
        write(pickle.REDUCE)  # applies _fill_function on the tuple 
開發者ID:pywren,項目名稱:pywren,代碼行數:50,代碼來源:cloudpickle.py

示例12: save_dynamic_class

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_dynamic_class(self, obj):
    """
    Save a class that can't be stored as module global.
    This method is used to serialize classes that are defined inside
    functions, or that otherwise can't be serialized as attribute lookups
    from global modules.
    """
    clsdict = dict(obj.__dict__)  # copy dict proxy to a dict
    clsdict.pop('__weakref__', None)

    # On PyPy, __doc__ is a readonly attribute, so we need to include it in
    # the initial skeleton class.  This is safe because we know that the
    # doc can't participate in a cycle with the original class.
    type_kwargs = {'__doc__': clsdict.pop('__doc__', None)}

    # If type overrides __dict__ as a property, include it in the type kwargs.
    # In Python 2, we can't set this attribute after construction.
    __dict__ = clsdict.pop('__dict__', None)
    if isinstance(__dict__, property):
      type_kwargs['__dict__'] = __dict__

    save = self.save
    write = self.write

    # We write pickle instructions explicitly here to handle the
    # possibility that the type object participates in a cycle with its own
    # __dict__. We first write an empty "skeleton" version of the class and
    # memoize it before writing the class' __dict__ itself. We then write
    # instructions to "rehydrate" the skeleton class by restoring the
    # attributes from the __dict__.
    #
    # A type can appear in a cycle with its __dict__ if an instance of the
    # type appears in the type's __dict__ (which happens for the stdlib
    # Enum class), or if the type defines methods that close over the name
    # of the type, (which is utils for Python 2-style super() calls).

    # Push the rehydration function.
    save(_rehydrate_skeleton_class)

    # Mark the start of the args tuple for the rehydration function.
    write(pickle.MARK)

    # Create and memoize an skeleton class with obj's name and bases.
    tp = type(obj)
    self.save_reduce(tp, (obj.__name__, obj.__bases__, type_kwargs), obj=obj)

    # Now save the rest of obj's __dict__. Any references to obj
    # encountered while saving will point to the skeleton class.
    save(clsdict)

    # Write a tuple of (skeleton_class, clsdict).
    write(pickle.TUPLE)

    # Call _rehydrate_skeleton_class(skeleton_class, clsdict)
    write(pickle.REDUCE) 
開發者ID:WeBankFinTech,項目名稱:eggroll,代碼行數:57,代碼來源:cloudpickle.py

示例13: save_function_tuple

# 需要導入模塊: import pickle [as 別名]
# 或者: from pickle import TUPLE [as 別名]
def save_function_tuple(self, func):
    """  Pickles an actual func object.
    A func comprises: code, globals, defaults, closure, and dict.  We
    extract and save these, injecting reducing functions at certain points
    to recreate the func object.  Keep in mind that some of these pieces
    can contain a ref to the func itself.  Thus, a naive save on these
    pieces could trigger an infinite loop of save's.  To get around that,
    we first create a skeleton func object using just the code (this is
    safe, since this won't contain a ref to the func), and memoize it as
    soon as it's created.  The other stuff can then be filled in later.
    """
    if is_tornado_coroutine(func):
      self.save_reduce(_rebuild_tornado_coroutine, (func.__wrapped__,),
                       obj=func)
      return

    save = self.save
    write = self.write

    code, f_globals, defaults, closure_values, dct, base_globals = self.extract_func_data(
      func)

    save(_fill_function)  # skeleton function updater
    write(pickle.MARK)  # beginning of tuple that _fill_function expects

    self._save_subimports(
        code,
        itertools.chain(f_globals.values(), closure_values or ()),
    )

    # create a skeleton function object and memoize it
    save(_make_skel_func)
    save((
      code,
      len(closure_values) if closure_values is not None else -1,
      base_globals,
    ))
    write(pickle.REDUCE)
    self.memoize(func)

    # save the rest of the func data needed by _fill_function
    state = {
      'globals': f_globals,
      'defaults': defaults,
      'dict': dct,
      'module': func.__module__,
      'closure_values': closure_values,
    }
    if hasattr(func, '__qualname__'):
      state['qualname'] = func.__qualname__
    save(state)
    write(pickle.TUPLE)
    write(pickle.REDUCE)  # applies _fill_function on the tuple 
開發者ID:WeBankFinTech,項目名稱:eggroll,代碼行數:55,代碼來源:cloudpickle.py


注:本文中的pickle.TUPLE屬性示例由純淨天空整理自Github/MSDocs等開源代碼及文檔管理平台,相關代碼片段篩選自各路編程大神貢獻的開源項目,源碼版權歸原作者所有,傳播和使用請參考對應項目的License;未經允許,請勿轉載。