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- """This module implements decorators for implementing other decorators
- as well as some commonly used decorators.
- """
- import sys
- PY2 = sys.version_info[0] == 2
- if PY2:
- string_types = basestring,
- def exec_(_code_, _globs_=None, _locs_=None):
- """Execute code in a namespace."""
- if _globs_ is None:
- frame = sys._getframe(1)
- _globs_ = frame.f_globals
- if _locs_ is None:
- _locs_ = frame.f_locals
- del frame
- elif _locs_ is None:
- _locs_ = _globs_
- exec("""exec _code_ in _globs_, _locs_""")
- else:
- string_types = str,
- import builtins
- exec_ = getattr(builtins, "exec")
- del builtins
- from functools import partial
- from inspect import isclass
- from threading import Lock, RLock
- from .arguments import formatargspec
- try:
- from inspect import signature
- except ImportError:
- pass
- from .wrappers import (FunctionWrapper, BoundFunctionWrapper, ObjectProxy,
- CallableObjectProxy)
- # Adapter wrapper for the wrapped function which will overlay certain
- # properties from the adapter function onto the wrapped function so that
- # functions such as inspect.getargspec(), inspect.getfullargspec(),
- # inspect.signature() and inspect.getsource() return the correct results
- # one would expect.
- class _AdapterFunctionCode(CallableObjectProxy):
- def __init__(self, wrapped_code, adapter_code):
- super(_AdapterFunctionCode, self).__init__(wrapped_code)
- self._self_adapter_code = adapter_code
- @property
- def co_argcount(self):
- return self._self_adapter_code.co_argcount
- @property
- def co_code(self):
- return self._self_adapter_code.co_code
- @property
- def co_flags(self):
- return self._self_adapter_code.co_flags
- @property
- def co_kwonlyargcount(self):
- return self._self_adapter_code.co_kwonlyargcount
- @property
- def co_varnames(self):
- return self._self_adapter_code.co_varnames
- class _AdapterFunctionSurrogate(CallableObjectProxy):
- def __init__(self, wrapped, adapter):
- super(_AdapterFunctionSurrogate, self).__init__(wrapped)
- self._self_adapter = adapter
- @property
- def __code__(self):
- return _AdapterFunctionCode(self.__wrapped__.__code__,
- self._self_adapter.__code__)
- @property
- def __defaults__(self):
- return self._self_adapter.__defaults__
- @property
- def __kwdefaults__(self):
- return self._self_adapter.__kwdefaults__
- @property
- def __signature__(self):
- if 'signature' not in globals():
- return self._self_adapter.__signature__
- else:
- return signature(self._self_adapter)
- if PY2:
- func_code = __code__
- func_defaults = __defaults__
- class _BoundAdapterWrapper(BoundFunctionWrapper):
- @property
- def __func__(self):
- return _AdapterFunctionSurrogate(self.__wrapped__.__func__,
- self._self_parent._self_adapter)
- @property
- def __signature__(self):
- if 'signature' not in globals():
- return self.__wrapped__.__signature__
- else:
- return signature(self._self_parent._self_adapter)
- if PY2:
- im_func = __func__
- class AdapterWrapper(FunctionWrapper):
- __bound_function_wrapper__ = _BoundAdapterWrapper
- def __init__(self, *args, **kwargs):
- adapter = kwargs.pop('adapter')
- super(AdapterWrapper, self).__init__(*args, **kwargs)
- self._self_surrogate = _AdapterFunctionSurrogate(
- self.__wrapped__, adapter)
- self._self_adapter = adapter
- @property
- def __code__(self):
- return self._self_surrogate.__code__
- @property
- def __defaults__(self):
- return self._self_surrogate.__defaults__
- @property
- def __kwdefaults__(self):
- return self._self_surrogate.__kwdefaults__
- if PY2:
- func_code = __code__
- func_defaults = __defaults__
- @property
- def __signature__(self):
- return self._self_surrogate.__signature__
- class AdapterFactory(object):
- def __call__(self, wrapped):
- raise NotImplementedError()
- class DelegatedAdapterFactory(AdapterFactory):
- def __init__(self, factory):
- super(DelegatedAdapterFactory, self).__init__()
- self.factory = factory
- def __call__(self, wrapped):
- return self.factory(wrapped)
- adapter_factory = DelegatedAdapterFactory
- # Decorator for creating other decorators. This decorator and the
- # wrappers which they use are designed to properly preserve any name
- # attributes, function signatures etc, in addition to the wrappers
- # themselves acting like a transparent proxy for the original wrapped
- # function so the wrapper is effectively indistinguishable from the
- # original wrapped function.
- def decorator(wrapper=None, enabled=None, adapter=None, proxy=FunctionWrapper):
- # The decorator should be supplied with a single positional argument
- # which is the wrapper function to be used to implement the
- # decorator. This may be preceded by a step whereby the keyword
- # arguments are supplied to customise the behaviour of the
- # decorator. The 'adapter' argument is used to optionally denote a
- # separate function which is notionally used by an adapter
- # decorator. In that case parts of the function '__code__' and
- # '__defaults__' attributes are used from the adapter function
- # rather than those of the wrapped function. This allows for the
- # argument specification from inspect.getfullargspec() and similar
- # functions to be overridden with a prototype for a different
- # function than what was wrapped. The 'enabled' argument provides a
- # way to enable/disable the use of the decorator. If the type of
- # 'enabled' is a boolean, then it is evaluated immediately and the
- # wrapper not even applied if it is False. If not a boolean, it will
- # be evaluated when the wrapper is called for an unbound wrapper,
- # and when binding occurs for a bound wrapper. When being evaluated,
- # if 'enabled' is callable it will be called to obtain the value to
- # be checked. If False, the wrapper will not be called and instead
- # the original wrapped function will be called directly instead.
- # The 'proxy' argument provides a way of passing a custom version of
- # the FunctionWrapper class used in decorating the function.
- if wrapper is not None:
- # Helper function for creating wrapper of the appropriate
- # time when we need it down below.
- def _build(wrapped, wrapper, enabled=None, adapter=None):
- if adapter:
- if isinstance(adapter, AdapterFactory):
- adapter = adapter(wrapped)
- if not callable(adapter):
- ns = {}
- # Check if the signature argument specification has
- # annotations. If it does then we need to remember
- # it but also drop it when attempting to manufacture
- # a standin adapter function. This is necessary else
- # it will try and look up any types referenced in
- # the annotations in the empty namespace we use,
- # which will fail.
- annotations = {}
- if not isinstance(adapter, string_types):
- if len(adapter) == 7:
- annotations = adapter[-1]
- adapter = adapter[:-1]
- adapter = formatargspec(*adapter)
- exec_('def adapter{}: pass'.format(adapter), ns, ns)
- adapter = ns['adapter']
- # Override the annotations for the manufactured
- # adapter function so they match the original
- # adapter signature argument specification.
- if annotations:
- adapter.__annotations__ = annotations
- return AdapterWrapper(wrapped=wrapped, wrapper=wrapper,
- enabled=enabled, adapter=adapter)
- return proxy(wrapped=wrapped, wrapper=wrapper, enabled=enabled)
- # The wrapper has been provided so return the final decorator.
- # The decorator is itself one of our function wrappers so we
- # can determine when it is applied to functions, instance methods
- # or class methods. This allows us to bind the instance or class
- # method so the appropriate self or cls attribute is supplied
- # when it is finally called.
- def _wrapper(wrapped, instance, args, kwargs):
- # We first check for the case where the decorator was applied
- # to a class type.
- #
- # @decorator
- # class mydecoratorclass(object):
- # def __init__(self, arg=None):
- # self.arg = arg
- # def __call__(self, wrapped, instance, args, kwargs):
- # return wrapped(*args, **kwargs)
- #
- # @mydecoratorclass(arg=1)
- # def function():
- # pass
- #
- # In this case an instance of the class is to be used as the
- # decorator wrapper function. If args was empty at this point,
- # then it means that there were optional keyword arguments
- # supplied to be used when creating an instance of the class
- # to be used as the wrapper function.
- if instance is None and isclass(wrapped) and not args:
- # We still need to be passed the target function to be
- # wrapped as yet, so we need to return a further function
- # to be able to capture it.
- def _capture(target_wrapped):
- # Now have the target function to be wrapped and need
- # to create an instance of the class which is to act
- # as the decorator wrapper function. Before we do that,
- # we need to first check that use of the decorator
- # hadn't been disabled by a simple boolean. If it was,
- # the target function to be wrapped is returned instead.
- _enabled = enabled
- if type(_enabled) is bool:
- if not _enabled:
- return target_wrapped
- _enabled = None
- # Now create an instance of the class which is to act
- # as the decorator wrapper function. Any arguments had
- # to be supplied as keyword only arguments so that is
- # all we pass when creating it.
- target_wrapper = wrapped(**kwargs)
- # Finally build the wrapper itself and return it.
- return _build(target_wrapped, target_wrapper,
- _enabled, adapter)
- return _capture
- # We should always have the target function to be wrapped at
- # this point as the first (and only) value in args.
- target_wrapped = args[0]
- # Need to now check that use of the decorator hadn't been
- # disabled by a simple boolean. If it was, then target
- # function to be wrapped is returned instead.
- _enabled = enabled
- if type(_enabled) is bool:
- if not _enabled:
- return target_wrapped
- _enabled = None
- # We now need to build the wrapper, but there are a couple of
- # different cases we need to consider.
- if instance is None:
- if isclass(wrapped):
- # In this case the decorator was applied to a class
- # type but optional keyword arguments were not supplied
- # for initialising an instance of the class to be used
- # as the decorator wrapper function.
- #
- # @decorator
- # class mydecoratorclass(object):
- # def __init__(self, arg=None):
- # self.arg = arg
- # def __call__(self, wrapped, instance,
- # args, kwargs):
- # return wrapped(*args, **kwargs)
- #
- # @mydecoratorclass
- # def function():
- # pass
- #
- # We still need to create an instance of the class to
- # be used as the decorator wrapper function, but no
- # arguments are pass.
- target_wrapper = wrapped()
- else:
- # In this case the decorator was applied to a normal
- # function, or possibly a static method of a class.
- #
- # @decorator
- # def mydecoratorfuntion(wrapped, instance,
- # args, kwargs):
- # return wrapped(*args, **kwargs)
- #
- # @mydecoratorfunction
- # def function():
- # pass
- #
- # That normal function becomes the decorator wrapper
- # function.
- target_wrapper = wrapper
- else:
- if isclass(instance):
- # In this case the decorator was applied to a class
- # method.
- #
- # class myclass(object):
- # @decorator
- # @classmethod
- # def decoratorclassmethod(cls, wrapped,
- # instance, args, kwargs):
- # return wrapped(*args, **kwargs)
- #
- # instance = myclass()
- #
- # @instance.decoratorclassmethod
- # def function():
- # pass
- #
- # This one is a bit strange because binding was actually
- # performed on the wrapper created by our decorator
- # factory. We need to apply that binding to the decorator
- # wrapper function that the decorator factory
- # was applied to.
- target_wrapper = wrapper.__get__(None, instance)
- else:
- # In this case the decorator was applied to an instance
- # method.
- #
- # class myclass(object):
- # @decorator
- # def decoratorclassmethod(self, wrapped,
- # instance, args, kwargs):
- # return wrapped(*args, **kwargs)
- #
- # instance = myclass()
- #
- # @instance.decoratorclassmethod
- # def function():
- # pass
- #
- # This one is a bit strange because binding was actually
- # performed on the wrapper created by our decorator
- # factory. We need to apply that binding to the decorator
- # wrapper function that the decorator factory
- # was applied to.
- target_wrapper = wrapper.__get__(instance, type(instance))
- # Finally build the wrapper itself and return it.
- return _build(target_wrapped, target_wrapper, _enabled, adapter)
- # We first return our magic function wrapper here so we can
- # determine in what context the decorator factory was used. In
- # other words, it is itself a universal decorator. The decorator
- # function is used as the adapter so that linters see a signature
- # corresponding to the decorator and not the wrapper it is being
- # applied to.
- return _build(wrapper, _wrapper, adapter=decorator)
- else:
- # The wrapper still has not been provided, so we are just
- # collecting the optional keyword arguments. Return the
- # decorator again wrapped in a partial using the collected
- # arguments.
- return partial(decorator, enabled=enabled, adapter=adapter,
- proxy=proxy)
- # Decorator for implementing thread synchronization. It can be used as a
- # decorator, in which case the synchronization context is determined by
- # what type of function is wrapped, or it can also be used as a context
- # manager, where the user needs to supply the correct synchronization
- # context. It is also possible to supply an object which appears to be a
- # synchronization primitive of some sort, by virtue of having release()
- # and acquire() methods. In that case that will be used directly as the
- # synchronization primitive without creating a separate lock against the
- # derived or supplied context.
- def synchronized(wrapped):
- # Determine if being passed an object which is a synchronization
- # primitive. We can't check by type for Lock, RLock, Semaphore etc,
- # as the means of creating them isn't the type. Therefore use the
- # existence of acquire() and release() methods. This is more
- # extensible anyway as it allows custom synchronization mechanisms.
- if hasattr(wrapped, 'acquire') and hasattr(wrapped, 'release'):
- # We remember what the original lock is and then return a new
- # decorator which accesses and locks it. When returning the new
- # decorator we wrap it with an object proxy so we can override
- # the context manager methods in case it is being used to wrap
- # synchronized statements with a 'with' statement.
- lock = wrapped
- @decorator
- def _synchronized(wrapped, instance, args, kwargs):
- # Execute the wrapped function while the original supplied
- # lock is held.
- with lock:
- return wrapped(*args, **kwargs)
- class _PartialDecorator(CallableObjectProxy):
- def __enter__(self):
- lock.acquire()
- return lock
- def __exit__(self, *args):
- lock.release()
- return _PartialDecorator(wrapped=_synchronized)
- # Following only apply when the lock is being created automatically
- # based on the context of what was supplied. In this case we supply
- # a final decorator, but need to use FunctionWrapper directly as we
- # want to derive from it to add context manager methods in case it is
- # being used to wrap synchronized statements with a 'with' statement.
- def _synchronized_lock(context):
- # Attempt to retrieve the lock for the specific context.
- lock = vars(context).get('_synchronized_lock', None)
- if lock is None:
- # There is no existing lock defined for the context we
- # are dealing with so we need to create one. This needs
- # to be done in a way to guarantee there is only one
- # created, even if multiple threads try and create it at
- # the same time. We can't always use the setdefault()
- # method on the __dict__ for the context. This is the
- # case where the context is a class, as __dict__ is
- # actually a dictproxy. What we therefore do is use a
- # meta lock on this wrapper itself, to control the
- # creation and assignment of the lock attribute against
- # the context.
- with synchronized._synchronized_meta_lock:
- # We need to check again for whether the lock we want
- # exists in case two threads were trying to create it
- # at the same time and were competing to create the
- # meta lock.
- lock = vars(context).get('_synchronized_lock', None)
- if lock is None:
- lock = RLock()
- setattr(context, '_synchronized_lock', lock)
- return lock
- def _synchronized_wrapper(wrapped, instance, args, kwargs):
- # Execute the wrapped function while the lock for the
- # desired context is held. If instance is None then the
- # wrapped function is used as the context.
- with _synchronized_lock(instance if instance is not None else wrapped):
- return wrapped(*args, **kwargs)
- class _FinalDecorator(FunctionWrapper):
- def __enter__(self):
- self._self_lock = _synchronized_lock(self.__wrapped__)
- self._self_lock.acquire()
- return self._self_lock
- def __exit__(self, *args):
- self._self_lock.release()
- return _FinalDecorator(wrapped=wrapped, wrapper=_synchronized_wrapper)
- synchronized._synchronized_meta_lock = Lock()
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