matteo-the-prestige/matteo_env/Lib/site-packages/jsonpickle/util.py
2020-12-24 04:51:38 -05:00

563 lines
14 KiB
Python

# Copyright (C) 2008 John Paulett (john -at- paulett.org)
# Copyright (C) 2009-2018 David Aguilar (davvid -at- gmail.com)
# All rights reserved.
#
# This software is licensed as described in the file COPYING, which
# you should have received as part of this distribution.
"""Helper functions for pickling and unpickling. Most functions assist in
determining the type of an object.
"""
from __future__ import absolute_import, division, unicode_literals
import base64
import collections
import io
import operator
import time
import types
import inspect
from . import tags
from . import compat
from .compat import (
abc_iterator,
class_types,
iterator_types,
numeric_types,
PY2,
PY3,
PY3_ORDERED_DICT,
)
if PY2:
import __builtin__
SEQUENCES = (list, set, tuple)
SEQUENCES_SET = {list, set, tuple}
PRIMITIVES = {compat.ustr, bool, type(None)} | set(numeric_types)
def is_type(obj):
"""Returns True is obj is a reference to a type.
>>> is_type(1)
False
>>> is_type(object)
True
>>> class Klass: pass
>>> is_type(Klass)
True
"""
# use "isinstance" and not "is" to allow for metaclasses
return isinstance(obj, class_types)
def has_method(obj, name):
# false if attribute doesn't exist
if not hasattr(obj, name):
return False
func = getattr(obj, name)
# builtin descriptors like __getnewargs__
if isinstance(func, types.BuiltinMethodType):
return True
# note that FunctionType has a different meaning in py2/py3
if not isinstance(func, (types.MethodType, types.FunctionType)):
return False
# need to go through __dict__'s since in py3
# methods are essentially descriptors
# __class__ for old-style classes
base_type = obj if is_type(obj) else obj.__class__
original = None
# there is no .mro() for old-style classes
for subtype in inspect.getmro(base_type):
original = vars(subtype).get(name)
if original is not None:
break
# name not found in the mro
if original is None:
return False
# static methods are always fine
if isinstance(original, staticmethod):
return True
# at this point, the method has to be an instancemthod or a classmethod
self_attr = '__self__' if PY3 else 'im_self'
if not hasattr(func, self_attr):
return False
bound_to = getattr(func, self_attr)
# class methods
if isinstance(original, classmethod):
return issubclass(base_type, bound_to)
# bound methods
return isinstance(obj, type(bound_to))
def is_object(obj):
"""Returns True is obj is a reference to an object instance.
>>> is_object(1)
True
>>> is_object(object())
True
>>> is_object(lambda x: 1)
False
"""
return isinstance(obj, object) and not isinstance(
obj, (type, types.FunctionType, types.BuiltinFunctionType)
)
def is_primitive(obj):
"""Helper method to see if the object is a basic data type. Unicode strings,
integers, longs, floats, booleans, and None are considered primitive
and will return True when passed into *is_primitive()*
>>> is_primitive(3)
True
>>> is_primitive([4,4])
False
"""
return type(obj) in PRIMITIVES
def is_dictionary(obj):
"""Helper method for testing if the object is a dictionary.
>>> is_dictionary({'key':'value'})
True
"""
return type(obj) is dict
def is_sequence(obj):
"""Helper method to see if the object is a sequence (list, set, or tuple).
>>> is_sequence([4])
True
"""
return type(obj) in SEQUENCES_SET
def is_list(obj):
"""Helper method to see if the object is a Python list.
>>> is_list([4])
True
"""
return type(obj) is list
def is_set(obj):
"""Helper method to see if the object is a Python set.
>>> is_set(set())
True
"""
return type(obj) is set
def is_bytes(obj):
"""Helper method to see if the object is a bytestring.
>>> is_bytes(b'foo')
True
"""
return type(obj) is bytes
def is_unicode(obj):
"""Helper method to see if the object is a unicode string"""
return type(obj) is compat.ustr
def is_tuple(obj):
"""Helper method to see if the object is a Python tuple.
>>> is_tuple((1,))
True
"""
return type(obj) is tuple
def is_dictionary_subclass(obj):
"""Returns True if *obj* is a subclass of the dict type. *obj* must be
a subclass and not the actual builtin dict.
>>> class Temp(dict): pass
>>> is_dictionary_subclass(Temp())
True
"""
# TODO: add UserDict
return (
hasattr(obj, '__class__')
and issubclass(obj.__class__, dict)
and type(obj) is not dict
)
def is_sequence_subclass(obj):
"""Returns True if *obj* is a subclass of list, set or tuple.
*obj* must be a subclass and not the actual builtin, such
as list, set, tuple, etc..
>>> class Temp(list): pass
>>> is_sequence_subclass(Temp())
True
"""
return (
hasattr(obj, '__class__')
and (issubclass(obj.__class__, SEQUENCES) or is_list_like(obj))
and not is_sequence(obj)
)
def is_noncomplex(obj):
"""Returns True if *obj* is a special (weird) class, that is more complex
than primitive data types, but is not a full object. Including:
* :class:`~time.struct_time`
"""
if type(obj) is time.struct_time:
return True
return False
def is_function(obj):
"""Returns true if passed a function
>>> is_function(lambda x: 1)
True
>>> is_function(locals)
True
>>> def method(): pass
>>> is_function(method)
True
>>> is_function(1)
False
"""
function_types = (
types.FunctionType,
types.MethodType,
types.LambdaType,
types.BuiltinFunctionType,
types.BuiltinMethodType,
)
return type(obj) in function_types
def is_module_function(obj):
"""Return True if `obj` is a module-global function
>>> import os
>>> is_module_function(os.path.exists)
True
>>> is_module_function(lambda: None)
False
"""
return (
hasattr(obj, '__class__')
and isinstance(obj, (types.FunctionType, types.BuiltinFunctionType))
and hasattr(obj, '__module__')
and hasattr(obj, '__name__')
and obj.__name__ != '<lambda>'
)
def is_module(obj):
"""Returns True if passed a module
>>> import os
>>> is_module(os)
True
"""
return isinstance(obj, types.ModuleType)
def is_picklable(name, value):
"""Return True if an object can be pickled
>>> import os
>>> is_picklable('os', os)
True
>>> def foo(): pass
>>> is_picklable('foo', foo)
True
>>> is_picklable('foo', lambda: None)
False
"""
if name in tags.RESERVED:
return False
return is_module_function(value) or not is_function(value)
def is_installed(module):
"""Tests to see if ``module`` is available on the sys.path
>>> is_installed('sys')
True
>>> is_installed('hopefullythisisnotarealmodule')
False
"""
try:
__import__(module)
return True
except ImportError:
return False
def is_list_like(obj):
return hasattr(obj, '__getitem__') and hasattr(obj, 'append')
def is_iterator(obj):
is_file = PY2 and isinstance(obj, __builtin__.file)
return (
isinstance(obj, abc_iterator) and not isinstance(obj, io.IOBase) and not is_file
)
def is_collections(obj):
try:
return type(obj).__module__ == 'collections'
except Exception:
return False
def is_reducible(obj):
"""
Returns false if of a type which have special casing,
and should not have their __reduce__ methods used
"""
# defaultdicts may contain functions which we cannot serialise
if is_collections(obj) and not isinstance(obj, collections.defaultdict):
return True
return not (
is_list(obj)
or is_list_like(obj)
or is_primitive(obj)
or is_bytes(obj)
or is_unicode(obj)
or is_dictionary(obj)
or is_sequence(obj)
or is_set(obj)
or is_tuple(obj)
or is_dictionary_subclass(obj)
or is_sequence_subclass(obj)
or is_function(obj)
or is_module(obj)
or isinstance(getattr(obj, '__slots__', None), iterator_types)
or type(obj) is object
or obj is object
or (is_type(obj) and obj.__module__ == 'datetime')
)
def in_dict(obj, key, default=False):
"""
Returns true if key exists in obj.__dict__; false if not in.
If obj.__dict__ is absent, return default
"""
return (key in obj.__dict__) if getattr(obj, '__dict__', None) else default
def in_slots(obj, key, default=False):
"""
Returns true if key exists in obj.__slots__; false if not in.
If obj.__slots__ is absent, return default
"""
return (key in obj.__slots__) if getattr(obj, '__slots__', None) else default
def has_reduce(obj):
"""
Tests if __reduce__ or __reduce_ex__ exists in the object dict or
in the class dicts of every class in the MRO *except object*.
Returns a tuple of booleans (has_reduce, has_reduce_ex)
"""
if not is_reducible(obj) or is_type(obj):
return (False, False)
# in this case, reduce works and is desired
# notwithstanding depending on default object
# reduce
if is_noncomplex(obj):
return (False, True)
has_reduce = False
has_reduce_ex = False
REDUCE = '__reduce__'
REDUCE_EX = '__reduce_ex__'
# For object instance
has_reduce = in_dict(obj, REDUCE) or in_slots(obj, REDUCE)
has_reduce_ex = in_dict(obj, REDUCE_EX) or in_slots(obj, REDUCE_EX)
# turn to the MRO
for base in type(obj).__mro__:
if is_reducible(base):
has_reduce = has_reduce or in_dict(base, REDUCE)
has_reduce_ex = has_reduce_ex or in_dict(base, REDUCE_EX)
if has_reduce and has_reduce_ex:
return (has_reduce, has_reduce_ex)
# for things that don't have a proper dict but can be
# getattred (rare, but includes some builtins)
cls = type(obj)
object_reduce = getattr(object, REDUCE)
object_reduce_ex = getattr(object, REDUCE_EX)
if not has_reduce:
has_reduce_cls = getattr(cls, REDUCE, False)
if has_reduce_cls is not object_reduce:
has_reduce = has_reduce_cls
if not has_reduce_ex:
has_reduce_ex_cls = getattr(cls, REDUCE_EX, False)
if has_reduce_ex_cls is not object_reduce_ex:
has_reduce_ex = has_reduce_ex_cls
return (has_reduce, has_reduce_ex)
def translate_module_name(module):
"""Rename builtin modules to a consistent module name.
Prefer the more modern naming.
This is used so that references to Python's `builtins` module can
be loaded in both Python 2 and 3. We remap to the "__builtin__"
name and unmap it when importing.
Map the Python2 `exceptions` module to `builtins` because
`builtins` is a superset and contains everything that is
available in `exceptions`, which makes the translation simpler.
See untranslate_module_name() for the reverse operation.
"""
lookup = dict(__builtin__='builtins', exceptions='builtins')
return lookup.get(module, module)
def untranslate_module_name(module):
"""Rename module names mention in JSON to names that we can import
This reverses the translation applied by translate_module_name() to
a module name available to the current version of Python.
"""
module = _0_9_6_compat_untranslate(module)
lookup = dict(builtins='__builtin__') if PY2 else {}
return lookup.get(module, module)
def _0_9_6_compat_untranslate(module):
"""Provide compatibility for pickles created with jsonpickle 0.9.6 and
earlier, remapping `exceptions` and `__builtin__` to `builtins`.
"""
lookup = dict(__builtin__='builtins', exceptions='builtins')
return lookup.get(module, module)
def importable_name(cls):
"""
>>> class Example(object):
... pass
>>> ex = Example()
>>> importable_name(ex.__class__) == 'jsonpickle.util.Example'
True
>>> importable_name(type(25)) == 'builtins.int'
True
>>> importable_name(None.__class__) == 'builtins.NoneType'
True
>>> importable_name(False.__class__) == 'builtins.bool'
True
>>> importable_name(AttributeError) == 'builtins.AttributeError'
True
"""
# Use the fully-qualified name if available (Python >= 3.3)
name = getattr(cls, '__qualname__', cls.__name__)
module = translate_module_name(cls.__module__)
return '{}.{}'.format(module, name)
def b64encode(data):
"""
Encode binary data to ascii text in base64. Data must be bytes.
"""
return base64.b64encode(data).decode('ascii')
def b64decode(payload):
"""
Decode payload - must be ascii text.
"""
return base64.b64decode(payload)
def b85encode(data):
"""
Encode binary data to ascii text in base85. Data must be bytes.
"""
if PY2:
raise NotImplementedError("Python 2 can't encode data in base85.")
return base64.b85encode(data).decode('ascii')
def b85decode(payload):
"""
Decode payload - must be ascii text.
"""
if PY2:
raise NotImplementedError("Python 2 can't decode base85-encoded data.")
return base64.b85decode(payload)
def itemgetter(obj, getter=operator.itemgetter(0)):
return compat.ustr(getter(obj))
def items(obj):
"""Iterate over dicts in a deterministic order
Python2 does not guarantee dict ordering, so this function
papers over the difference in behavior. Python3 does guarantee
dict order, without use of OrderedDict, so no sorting is needed there.
"""
if PY3_ORDERED_DICT:
for k, v in obj.items():
yield k, v
else:
for k, v in sorted(obj.items(), key=itemgetter):
yield k, v