# -*- coding: utf-8 -*- """ celery.local ~~~~~~~~~~~~ This module contains critical utilities that needs to be loaded as soon as possible, and that shall not load any third party modules. Parts of this module is Copyright by Werkzeug Team. """ from __future__ import absolute_import import importlib import sys def symbol_by_name(name, aliases={}, imp=None, package=None, sep='.', default=None, **kwargs): """Get symbol by qualified name. The name should be the full dot-separated path to the class:: modulename.ClassName Example:: celery.concurrency.processes.TaskPool ^- class name or using ':' to separate module and symbol:: celery.concurrency.processes:TaskPool If `aliases` is provided, a dict containing short name/long name mappings, the name is looked up in the aliases first. Examples: >>> symbol_by_name('celery.concurrency.processes.TaskPool') >>> symbol_by_name('default', { ... 'default': 'celery.concurrency.processes.TaskPool'}) # Does not try to look up non-string names. >>> from celery.concurrency.processes import TaskPool >>> symbol_by_name(TaskPool) is TaskPool True """ if imp is None: imp = importlib.import_module if not isinstance(name, basestring): return name # already a class name = aliases.get(name) or name sep = ':' if ':' in name else sep module_name, _, cls_name = name.rpartition(sep) if not module_name: cls_name, module_name = None, package if package else cls_name try: try: module = imp(module_name, package=package, **kwargs) except ValueError, exc: raise ValueError, ValueError( "Couldn't import %r: %s" % (name, exc)), sys.exc_info()[2] return getattr(module, cls_name) if cls_name else module except (ImportError, AttributeError): if default is None: raise return default def try_import(module, default=None): """Try to import and return module, or return None if the module does not exist.""" try: return importlib.import_module(module) except ImportError: return default class Proxy(object): """Proxy to another object.""" # Code stolen from werkzeug.local.Proxy. __slots__ = ('__local', '__args', '__kwargs', '__dict__', '__name__') def __init__(self, local, args=None, kwargs=None, name=None): object.__setattr__(self, '_Proxy__local', local) object.__setattr__(self, '_Proxy__args', args or ()) object.__setattr__(self, '_Proxy__kwargs', kwargs or {}) if name is not None: object.__setattr__(self, '__custom_name__', name) @property def __name__(self): try: return self.__custom_name__ except AttributeError: return self._get_current_object().__name__ @property def __module__(self): return self._get_current_object().__module__ @property def __doc__(self): return self._get_current_object().__doc__ def _get_class(self): return self._get_current_object().__class__ @property def __class__(self): return self._get_class() def _get_current_object(self): """Return the current object. This is useful if you want the real object behind the proxy at a time for performance reasons or because you want to pass the object into a different context. """ if not hasattr(self.__local, '__release_local__'): return self.__local(*self.__args, **self.__kwargs) try: return getattr(self.__local, self.__name__) except AttributeError: raise RuntimeError('no object bound to %s' % self.__name__) @property def __dict__(self): try: return self._get_current_object().__dict__ except RuntimeError: # pragma: no cover raise AttributeError('__dict__') def __repr__(self): try: obj = self._get_current_object() except RuntimeError: # pragma: no cover return '<%s unbound>' % self.__class__.__name__ return repr(obj) def __nonzero__(self): try: return bool(self._get_current_object()) except RuntimeError: # pragma: no cover return False def __unicode__(self): try: return unicode(self._get_current_object()) except RuntimeError: # pragma: no cover return repr(self) def __dir__(self): try: return dir(self._get_current_object()) except RuntimeError: # pragma: no cover return [] def __getattr__(self, name): if name == '__members__': return dir(self._get_current_object()) return getattr(self._get_current_object(), name) def __setitem__(self, key, value): self._get_current_object()[key] = value def __delitem__(self, key): del self._get_current_object()[key] def __setslice__(self, i, j, seq): self._get_current_object()[i:j] = seq def __delslice__(self, i, j): del self._get_current_object()[i:j] __setattr__ = lambda x, n, v: setattr(x._get_current_object(), n, v) __delattr__ = lambda x, n: delattr(x._get_current_object(), n) __str__ = lambda x: str(x._get_current_object()) __lt__ = lambda x, o: x._get_current_object() < o __le__ = lambda x, o: x._get_current_object() <= o __eq__ = lambda x, o: x._get_current_object() == o __ne__ = lambda x, o: x._get_current_object() != o __gt__ = lambda x, o: x._get_current_object() > o __ge__ = lambda x, o: x._get_current_object() >= o __cmp__ = lambda x, o: cmp(x._get_current_object(), o) __hash__ = lambda x: hash(x._get_current_object()) __call__ = lambda x, *a, **kw: x._get_current_object()(*a, **kw) __len__ = lambda x: len(x._get_current_object()) __getitem__ = lambda x, i: x._get_current_object()[i] __iter__ = lambda x: iter(x._get_current_object()) __contains__ = lambda x, i: i in x._get_current_object() __getslice__ = lambda x, i, j: x._get_current_object()[i:j] __add__ = lambda x, o: x._get_current_object() + o __sub__ = lambda x, o: x._get_current_object() - o __mul__ = lambda x, o: x._get_current_object() * o __floordiv__ = lambda x, o: x._get_current_object() // o __mod__ = lambda x, o: x._get_current_object() % o __divmod__ = lambda x, o: x._get_current_object().__divmod__(o) __pow__ = lambda x, o: x._get_current_object() ** o __lshift__ = lambda x, o: x._get_current_object() << o __rshift__ = lambda x, o: x._get_current_object() >> o __and__ = lambda x, o: x._get_current_object() & o __xor__ = lambda x, o: x._get_current_object() ^ o __or__ = lambda x, o: x._get_current_object() | o __div__ = lambda x, o: x._get_current_object().__div__(o) __truediv__ = lambda x, o: x._get_current_object().__truediv__(o) __neg__ = lambda x: -(x._get_current_object()) __pos__ = lambda x: +(x._get_current_object()) __abs__ = lambda x: abs(x._get_current_object()) __invert__ = lambda x: ~(x._get_current_object()) __complex__ = lambda x: complex(x._get_current_object()) __int__ = lambda x: int(x._get_current_object()) __long__ = lambda x: long(x._get_current_object()) __float__ = lambda x: float(x._get_current_object()) __oct__ = lambda x: oct(x._get_current_object()) __hex__ = lambda x: hex(x._get_current_object()) __index__ = lambda x: x._get_current_object().__index__() __coerce__ = lambda x, o: x.__coerce__(x, o) __enter__ = lambda x: x._get_current_object().__enter__() __exit__ = lambda x, *a, **kw: x._get_current_object().__exit__(*a, **kw) __reduce__ = lambda x: x._get_current_object().__reduce__() class PromiseProxy(Proxy): """This is a proxy to an object that has not yet been evaulated. :class:`Proxy` will evaluate the object each time, while the promise will only evaluate it once. """ def _get_current_object(self): try: return object.__getattribute__(self, '__thing') except AttributeError: return self.__evaluate__() def __evaluated__(self): try: object.__getattribute__(self, '__thing') except AttributeError: return False return True def __maybe_evaluate__(self): return self._get_current_object() def __evaluate__(self): try: thing = Proxy._get_current_object(self) object.__setattr__(self, '__thing', thing) return thing finally: object.__delattr__(self, '_Proxy__local') object.__delattr__(self, '_Proxy__args') object.__delattr__(self, '_Proxy__kwargs') def maybe_evaluate(obj): try: return obj.__maybe_evaluate__() except AttributeError: return obj