This document describes the current stable version of Celery (5.2). For development docs, go here.
Source code for celery.utils.objects
"""Object related utilities, including introspection, etc."""
from functools import reduce
__all__ = ('Bunch', 'FallbackContext', 'getitem_property', 'mro_lookup')
[docs]class Bunch:
"""Object that enables you to modify attributes."""
def __init__(self, **kwargs):
self.__dict__.update(kwargs)
[docs]def mro_lookup(cls, attr, stop=None, monkey_patched=None):
"""Return the first node by MRO order that defines an attribute.
Arguments:
cls (Any): Child class to traverse.
attr (str): Name of attribute to find.
stop (Set[Any]): A set of types that if reached will stop
the search.
monkey_patched (Sequence): Use one of the stop classes
if the attributes module origin isn't in this list.
Used to detect monkey patched attributes.
Returns:
Any: The attribute value, or :const:`None` if not found.
"""
stop = set() if not stop else stop
monkey_patched = [] if not monkey_patched else monkey_patched
for node in cls.mro():
if node in stop:
try:
value = node.__dict__[attr]
module_origin = value.__module__
except (AttributeError, KeyError):
pass
else:
if module_origin not in monkey_patched:
return node
return
if attr in node.__dict__:
return node
[docs]class FallbackContext:
"""Context workaround.
The built-in ``@contextmanager`` utility does not work well
when wrapping other contexts, as the traceback is wrong when
the wrapped context raises.
This solves this problem and can be used instead of ``@contextmanager``
in this example::
@contextmanager
def connection_or_default_connection(connection=None):
if connection:
# user already has a connection, shouldn't close
# after use
yield connection
else:
# must've new connection, and also close the connection
# after the block returns
with create_new_connection() as connection:
yield connection
This wrapper can be used instead for the above like this::
def connection_or_default_connection(connection=None):
return FallbackContext(connection, create_new_connection)
"""
def __init__(self, provided, fallback, *fb_args, **fb_kwargs):
self.provided = provided
self.fallback = fallback
self.fb_args = fb_args
self.fb_kwargs = fb_kwargs
self._context = None
def __enter__(self):
if self.provided is not None:
return self.provided
context = self._context = self.fallback(
*self.fb_args, **self.fb_kwargs
).__enter__()
return context
def __exit__(self, *exc_info):
if self._context is not None:
return self._context.__exit__(*exc_info)
[docs]class getitem_property:
"""Attribute -> dict key descriptor.
The target object must support ``__getitem__``,
and optionally ``__setitem__``.
Example:
>>> from collections import defaultdict
>>> class Me(dict):
... deep = defaultdict(dict)
...
... foo = _getitem_property('foo')
... deep_thing = _getitem_property('deep.thing')
>>> me = Me()
>>> me.foo
None
>>> me.foo = 10
>>> me.foo
10
>>> me['foo']
10
>>> me.deep_thing = 42
>>> me.deep_thing
42
>>> me.deep
defaultdict(<type 'dict'>, {'thing': 42})
"""
def __init__(self, keypath, doc=None):
path, _, self.key = keypath.rpartition('.')
self.path = path.split('.') if path else None
self.__doc__ = doc
def _path(self, obj):
return (reduce(lambda d, k: d[k], [obj] + self.path) if self.path
else obj)
def __get__(self, obj, type=None):
if obj is None:
return type
return self._path(obj).get(self.key)
def __set__(self, obj, value):
self._path(obj)[self.key] = value
