Release Notes ============= Version 1.16.0 -------------- Note that version 1.16.0 drops support for Python 2.7 and 3.5. Python version 3.6 or later is required. **New Features** * The ``patch_function_wrapper()`` decorator now accepts an ``enabled`` argument, which can be a literal boolean value, object that evaluates as boolean, or a callable object which returns a boolean. In the case of a callable, determination of whether the wrapper is invoked will be left until the point of the call. In the other cases, the wrapper will not be applied if the value evaluates false at the point of applying the wrapper. **Features Changed** * The import hook loader and finder objects are now implemented as transparent object proxies so they properly proxy pass access to attributes/functions of the wrapped loader or finder. * Code files in the implementation have been reorganized such that the pure Python version of the ``ObjectProxy`` class is directly available even if the C extension variant is being used. This is to allow the pure Python variant to be used in exceptional cases where the C extension variant is not fully compatible with the pure Python implementation and the behaviour of the pure Python variant is what is required. This should only be relied upon if have absolutely no choice. The pure Python variant is not as performant as the C extension. To access the pure Python variant use ``from wrapt.wrappers import ObjectProxy`` instead of just ``from wrapt import ObjectProxy``. Note that prior to this version if you had used ``from wrapt.wrappers import ObjectProxy`` you would have got the C extension variant of the class rather than the pure Python version if the C extension variant was available. **Bugs Fixed** * It was not possible to update the ``__class__`` attribute through the transparent object proxy when relying on the C implementation. Version 1.15.0 -------------- **Bugs Fixed** * When the C extension for wrapt was being used, and a property was used on an object proxy wrapping another object to intercept access to an attribute of the same name on the wrapped object, if the function implementing the property raised an exception, then the exception was ignored and not propagated back to the caller. What happened instead was that the original value of the attribute from the wrapped object was returned, thus silently suppressing that an exception had occurred in the wrapper. This behaviour was not happening when the pure Python version of wrapt was being used, with it raising the exception. The pure Python and C extension implementations thus did not behave the same. Note that in the specific case that the exception raised is AttributeError it still wouldn't be raised. This is the case for both Python and C extension implementations. If a wrapper for an attribute internally raises an AttributeError for some reason, the wrapper should if necessary catch the exception and deal with it, or propagate it as a different exception type if it is important that an exception still be passed back. * Address issue where the post import hook mechanism of wrapt wasn't transparent and left the ``__loader__`` and ``__spec__.loader`` attributes of a module as the wrapt import hook loader and not the original loader. That the original loader wasn't preserved could interfere with code which needed access to the original loader. * Address issues where a thread deadlock could occur within the wrapt module import handler, when code executed from a post import hook created a new thread and code executed in the context of the new thread itself tried to register a post import hook, or imported a new module. * When using ``CallableObjectProxy`` as a wrapper for a type or function and calling the wrapped object, it was not possible to pass a keyword argument named ``self``. This only occurred when using the pure Python version of wrapt and did not occur when using the C extension based implementation. * When using ``PartialCallableObjectProxy`` as a wrapper for a type or function, when constructing the partial object and when calling the partial object, it was not possible to pass a keyword argument named ``self``. This only occurred when using the pure Python version of wrapt and did not occur when using the C extension based implementation. * When using ``FunctionWrapper`` as a wrapper for a type or function and calling the wrapped object, it was not possible to pass a keyword argument named ``self``. Because ``FunctionWrapper`` is also used by decorators, this also affected decorators on functions and class types. A similar issue also arose when these were applied to class and instance methods where binding occurred when the method was accessed. In that case it was in ``BoundFunctionWrapper`` that the problem could arise. These all only occurred when using the pure Python version of wrapt and did not occur when using the C extension based implementation. * When using ``WeakFunctionProxy`` as a wrapper for a function, when calling the function via the proxy object, it was not possible to pass a keyword argument named ``self``. Version 1.14.1 -------------- **Bugs Fixed** * When the post import hooks mechanism was being used, and a Python package with its own custom module importer was used, importing modules could fail if the custom module importer didn't use the latest Python import hook finder/loader APIs and instead used the deprecated API. This was actually occurring with the ``zipimporter`` in Python itself, which was not updated to use the newer Python APIs until Python 3.10. Version 1.14.0 -------------- **Bugs Fixed** * Python 3.11 dropped ``inspect.formatargspec()`` which was used in creating signature changing decorators. Now bundling a version of this function which uses ``Parameter`` and ``Signature`` from ``inspect`` module when available. The replacement function is exposed as ``wrapt.formatargspec()`` if need it for your own code. * When using a decorator on a class, ``isinstance()`` checks wouldn't previously work as expected and you had to manually use ``Type.__wrapped__`` to access the real type when doing instance checks. The ``__instancecheck__`` hook is now implemented such that you don't have to use ``Type.__wrapped__`` instead of ``Type`` as last argument to ``isinstance()``. * Eliminated deprecation warnings related to Python module import system, which would have turned into broken code in Python 3.12. This was used by the post import hook mechanism. **New Features** * Binary wheels provided on PyPi for ``aarch64`` Linux systems and macOS native silicon where supported by Python when using ``pypa/cibuildwheel``. Version 1.13.3 -------------- **New Features** * Adds wheels for Python 3.10 on PyPi and where possible also now generating binary wheels for ``musllinux``. Version 1.13.2 -------------- **Features Changed** * On the Windows platform when using Python 2.7, by default the C extension will not be installed and the pure Python implementation will be used. This is because too often on Windows when using Python 2.7, there is no working compiler available. Prior to version 1.13.0, when installing the package it would fallback to using the pure Python implementation automatically but that relied on a workaround to do it when there was no working compiler. With the changes in 1.13.0 to use the builtin mechanism of Python to not fail when a C extension cannot be compiled, this fallback doesn't work when the compiler doesn't exist, as the builtin mechanism in Python regards lack of a compiler as fatal and not a condition for which it is okay to ignore the fact that the extension could not be compiled. If you are using Python 2.7 on Windows, have a working compiler, and still want to attempt to install the C extension, you can do so by setting the `WRAPT_INSTALL_EXTENSIONS` environment variable to `true` when installing the `wrapt` package. Note that the next signficant release of `wrapt` will drop support for Python 2.7 and Python 3.5. The change described here is to ensure that `wrapt` can be used with Python 2.7 on Windows for just a little bit longer. If using Python 2.7 on non Windows platforms, it will still attempt to install the C extension. Version 1.13.1 -------------- **Bugs Fixed** * Fix Python version constraint so PyPi classifier for ``pip`` requires Python 2.7 or Python 3.5+. Version 1.13.0 -------------- **Bugs Fixed** * When a reference to a class method was taken out of a class, and then wrapped in a function wrapper, and called, the class type was not being passed as the instance argument, but as the first argument in args, with the instance being ``None``. The class type should have been passed as the instance argument. * If supplying an adapter function for a signature changing decorator using input in the form of a function argument specification, name lookup exceptions would occur where the adaptor function had annotations which referenced non builtin Python types. Although the issues have been addressed where using input data in the format usually returned by ``inspect.getfullargspec()`` to pass the function argument specification, you can still have problems when supplying a function signature as string. In the latter case only Python builtin types can be referenced in annotations. * When a decorator was applied on top of a data/non-data descriptor in a class definition, the call to the special method ``__set_name__()`` to notify the descriptor of the variable name was not being propogated. Note that this issue has been addressed in the ``FunctionWrapper`` used by ``@wrapt.decorator`` but has not been applied to the generic ``ObjectProxy`` class. If using ``ObjectProxy`` directly to construct a custom wrapper which is applied to a descriptor, you will need to propogate the ``__set_name__()`` call yourself if required. * The ``issubclass()`` builtin method would give incorrect results when used with a class which had a decorator applied to it. Note that this has only been able to be fixed for Python 3.7+. Also, due to what is arguably a bug (https://bugs.python.org/issue44847) in the Python standard library, you will still have problems when the class heirarchy uses a base class which has the ``abc.ABCMeta`` metaclass. In this later case an exception will be raised of ``TypeError: issubclass() arg 1 must be a class``. Version 1.12.1 -------------- **Bugs Fixed** * Applying a function wrapper to a static method of a class using the ``wrap_function_wrapper()`` function, or wrapper for the same, wasn't being done correctly when the static method was the immediate child of the target object. It was working when the name path had multiple name components. A failure would subsequently occur when the static method was called via an instance of the class, rather than the class. Version 1.12.0 -------------- **Features Changed** * Provided that you only want to support Python 3.7, when deriving from a base class which has a decorator applied to it, you no longer need to access the true type of the base class using ``__wrapped__`` in the inherited class list of the derived class. **Bugs Fixed** * When using the ``synchronized`` decorator on instance methods of a class, if the class declared special methods to override the result for when the class instance was tested as a boolean so that it returned ``False`` all the time, the synchronized method would fail when called. * When using an adapter function to change the signature of the decorated function, ``inspect.signature()`` was returning the wrong signature when an instance method was inspected by accessing the method via the class type. Version 1.11.2 -------------- **Bugs Fixed** * Fix possible crash when garbage collection kicks in when invoking a destructor of wrapped object. Version 1.11.1 -------------- **Bugs Fixed** * Fixed memory leak in C extension variant of ``PartialCallableObjectProxy`` class introduced in 1.11.0, when it was being used to perform binding, when a call of an instance method was made through the class type, and the self object passed explicitly as first argument. * The C extension variant of the ``PartialCallableObjectProxy`` class introduced in 1.11.0, which is a version of ``functools.partial`` which correctly handles binding when applied to methods of classes, couldn't be used when no positional arguments were supplied. * When the C extension variant of ``PartialCallableObjectProxy`` was used and multiple positional arguments were supplied, the first argument would be replicated and used to all arguments, instead of correct values, when the partial was called. * When the C extension variant of ``PartialCallableObjectProxy`` was used and keyword arguments were supplied, it would fail as was incorrectly using the positional arguments where the keyword arguments should have been used. Version 1.11.0 -------------- **Bugs Fixed** * When using arithmetic operations through a proxy object, checks about the types of arguments were not being performed correctly, which could result in an exception being raised to indicate that a proxy object had not been initialised when in fact the argument wasn't even an instance of a proxy object. Because an incorrect cast in C level code was being performed and an attribute in memory checked on the basis of it being a type different to what it actually was, technically it may have resulted in a process crash if the size of the object was smaller than the type being casted to. * The ``__complex__()`` special method wasn't implemented and using ``complex()`` on a proxy object would give wrong results or fail. * When using the C extension, if an exception was raised when using inplace or, ie., ``|=``, the error condition wasn't being correctly propagated back which would result in an exception showing up as wrong location in subsequent code. * Type of ``long`` was used instead of ``Py_hash_t`` for Python 3.3+. This caused compiler warnings on Windows, which depending on what locale was set to, would cause pip to fail when installing the package. * If calling ``Class.instancemethod`` and passing ``self`` explicitly, the ability to access ``__name__`` and ``__module__`` on the final bound method were not preserved. This was due to a ``partial`` being used for this special case, and it doesn't preserve introspection. * Fixed typo in the getter property of ``ObjectProxy`` for accessing ``__annotations__``. Appeared that it was still working as would fall back to using generic ``__getattr__()`` to access attribute on wrapped object. **Features Changed** * Dropped support for Python 2.6 and 3.3. * If ``copy.copy()`` or ``copy.deepcopy()`` is used on an instance of the ``ObjectProxy`` class, a ``NotImplementedError`` exception is raised, with a message indicating that the object proxy must implement the ``__copy__()`` or ``__deepcopy__()`` method. This is in place of the default ``TypeError`` exception with message indicating a pickle error. * If ``pickle.dump()`` or ``pickle.dumps()`` is used on an instance of the ``ObjectProxy`` class, a ``NotImplementedError`` exception is raised, with a message indicating that the object proxy must implement the ``__reduce_ex__()`` method. This is in place of the default ``TypeError`` exception with message indicating a pickle error. Version 1.10.11 --------------- **Bugs Fixed** * When wrapping a ``@classmethod`` in a class used as a base class, when the method was called via the derived class type, the base class type was being passed for the ``cls`` argument instead of the derived class type through which the call was made. **New Features** * The C extension can be disabled at runtime by setting the environment variable ``WRAPT_DISABLE_EXTENSIONS``. This may be necessary where there is currently a difference in behaviour between pure Python implementation and C extension and the C extension isn't having the desired result. Version 1.10.10 --------------- **Features Changed** * Added back missing description and categorisations when releasing to PyPi. Version 1.10.9 -------------- **Bugs Fixed** * Code for ``inspect.getargspec()`` when using Python 2.6 was missing import of ``sys`` module. Version 1.10.8 -------------- **Bugs Fixed** * Ensure that ``inspect.getargspec()`` is only used with Python 2.6 where required, as function has been removed in Python 3.6. Version 1.10.7 -------------- **Bugs Fixed** * The mod operator '%' was being incorrectly proxied in Python variant of object proxy to the xor operator '^'. Version 1.10.6 -------------- **Bugs Fixed** * Registration of post import hook would fail with an exception if registered after another import hook for the same target module had been registered and the target module also imported. **New Features** * Support for testing with Travis CI added to repository. Version 1.10.5 -------------- **Bugs Fixed** * Post import hook discovery was not working correctly where multiple target modules were registered in the same entry point list. Only the callback for the last would be called regardless of the target module. * If a ``WeakFunctionProxy`` wrapper was used around a method of a class which was decorated using a wrapt decorator, the decorator wasn't being invoked when the method was called via the weakref proxy. **Features Changed** * The ``register_post_import_hook()`` function, modelled after the function of the same name in PEP-369 has been extended to allow a string name to be supplied for the import hook. This needs to be of the form ``module::function`` and will result in an import hook proxy being used which will only load and call the function of the specified moduled when the import hook is required. This avoids needing to load the code needed to operate on the target module unless required. Version 1.10.4 -------------- **Bugs Fixed** * Fixup botched package version number from 1.10.3 release. Version 1.10.3 -------------- **Bugs Fixed** * Post import hook discovery from third party modules declared via ``setuptools`` entry points was failing due to typo in temporary variable name. Also added the ``discover_post_import_hooks()`` to the public API as was missing. **Features Changed** * To ensure parity between pure Python and C extension variants of the ``ObjectProxy`` class, allow the ``__wrapped__`` attribute to be set in a derived class when the ``ObjectProxy.__init__()`` method hasn't been called. Version 1.10.2 -------------- **Bugs Fixed** * When creating a derived ``ObjectProxy``, if the base class ``__init__()`` method wasn't called and the ``__wrapped__`` attribute was accessed, in the pure Python implementation a recursive call of ``__getattr__()`` would occur and the maximum stack depth would be reached and an exception raised. * When creating a derived ``ObjectProxy``, if the base class ``__init__()`` method wasn't called, in the C extension implementation, if that instance was then used in a binary arithmetic operation the process would crash. Version 1.10.1 -------------- **Bugs Fixed** * When using ``FunctionWrapper`` around a method of an existing instance of a class, rather than on the type, then a memory leak could occur in two different scenarios. The first issue was that wrapping a method on an instance of a class was causing an unwanted reference to the class meaning that if the class type was transient, such as it is being created inside of a function call, the type object would leak. The second issue was that wrapping a method on an instance of a class and then calling the method was causing an unwanted reference to the instance meaning that if the instance was transient, it would leak. This was only occurring when the C extension component for the ``wrapt`` module was being used. Version 1.10.0 -------------- **New Features** * When specifying an adapter for a decorator, it is now possible to pass in, in addition to passing in a callable, a tuple of the form which is returned by ``inspect.getargspec()``, or a string of the form which is returned by ``inspect.formatargspec()``. In these two cases the decorator will automatically compile a stub function to use as the adapter. This eliminates the need for a caller to generate the stub function if generating the signature on the fly. :: def argspec_factory(wrapped): argspec = inspect.getargspec(wrapped) args = argspec.args[1:] defaults = argspec.defaults and argspec.defaults[-len(argspec.args):] return inspect.ArgSpec(args, argspec.varargs, argspec.keywords, defaults) def session(wrapped): @wrapt.decorator(adapter=argspec_factory(wrapped)) def _session(wrapped, instance, args, kwargs): with transaction() as session: return wrapped(session, *args, **kwargs) return _session(wrapped) This mechanism and the original mechanism to pass a function, meant that the adapter function had to be created in advance. If the adapter needed to be generated on demand for the specific function to be wrapped, then it would have been necessary to use a closure around the definition of the decorator as above, such that the generator could be passed in. As a convenience, instead of using such a closure, it is also now possible to write: :: def argspec_factory(wrapped): argspec = inspect.getargspec(wrapped) args = argspec.args[1:] defaults = argspec.defaults and argspec.defaults[-len(argspec.args):] return inspect.ArgSpec(args, argspec.varargs, argspec.keywords, defaults) @wrapt.decorator(adapter=wrapt.adapter_factory(argspec_factory)) def _session(wrapped, instance, args, kwargs): with transaction() as session: return wrapped(session, *args, **kwargs) The result of ``wrapt.adapter_factory()`` will be recognised as indicating that the creation of the adapter is to be deferred until the decorator is being applied to a function. The factory function for generating the adapter function or specification on demand will be passed the function being wrapped by the decorator. If wishing to create a library of routines for generating adapter functions or specifications dynamically, then you can do so by creating classes which derive from ``wrapt.AdapterFactory`` as that is the type which is recognised as indicating lazy evaluation of the adapter function. For example, ``wrapt.adapter_factory()`` is itself implemented as: :: class DelegatedAdapterFactory(wrapt.AdapterFactory): def __init__(self, factory): super(DelegatedAdapterFactory, self).__init__() self.factory = factory def __call__(self, wrapped): return self.factory(wrapped) adapter_factory = DelegatedAdapterFactory **Bugs Fixed** * The ``inspect.signature()`` function was only added in Python 3.3. Use fallback when doesn't exist and on Python 3.2 or earlier Python 3 versions. Note that testing is only performed for Python 3.3+, so it isn't actually known if the ``wrapt`` package works on Python 3.2. Version 1.9.0 ------------- **Features Changed** * When using ``wrapt.wrap_object()``, it is now possible to pass an arbitrary object in addition to a module object, or a string name identifying a module. Similar for underlying ``wrapt.resolve_path()`` function. **Bugs Fixed** * It is necessary to proxy the special ``__weakref__`` attribute in the pure Python object proxy else using ``inspect.getmembers()`` on a decorator class will fail. * The ``FunctionWrapper`` class was not passing through the instance correctly to the wrapper function when it was applied to a method of an existing instance of a class. * The ``FunctionWrapper`` was not always working when applied around a method of a class type by accessing the method to be wrapped using ``getattr()``. Instead it is necessary to access the original unbound method from the class ``__dict__``. Updated the ``FunctionWrapper`` to work better in such situations, but also modify ``resolve_path()`` to always grab the class method from the class ``__dict__`` when wrapping methods using ``wrapt.wrap_object()`` so wrapping is more predictable. When doing monkey patching ``wrapt.wrap_object()`` should always be used to ensure correct operation. * The ``AttributeWrapper`` class used internally to the function ``wrap_object_attribute()`` had wrongly named the ``__delete__`` method for the descriptor as ``__del__``. Version 1.8.0 ------------- **Features Changed** * Previously using @wrapt.decorator on a class type didn't really yield anything which was practically useful. This is now changed and when applied to a class an instance of the class will be automatically created to be used as the decorator wrapper function. The requirement for this is that the __call__() method be specified in the style as would be done for the decorator wrapper function. :: @wrapt.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 If the resulting decorator class is to be used with no arguments, the __init__() method of the class must have all default arguments. These arguments can be optionally supplied though, by using keyword arguments to the resulting decorator when applied to the function to be decorated. :: @mydecoratorclass(arg=1) def function(): pass Version 1.7.0 ------------- **New Features** * Provide wrapt.getcallargs() for determining how arguments mapped to a wrapped function. For Python 2.7 this is actually inspect.getcallargs() with a local copy being used in the case of Python 2.6. * Added wrapt.wrap_object_attribute() as a way of wrapping or otherwise modifying the result of trying to access the attribute of an object instance. It works by adding a data descriptor with the same name as the attribute, to the class type, allowing reading of the attribute to be intercepted. It does not affect updates to or deletion of the attribute. **Bugs Fixed** * Need to explicitly proxy special methods __bytes__(), __reversed__() and __round__() as they are only looked up on the class type and not the instance, so can't rely on __getattr__() fallback. * Raise more appropriate TypeError, with corresponding message, rather than IndexError, when a decorated instance or class method is called via the class but the required 1st argument of the instance or class is not supplied. Version 1.6.0 ------------- **Bugs Fixed** * The ObjectProxy class would return that the __call__() method existed even though the wrapped object didn't have one. Similarly, callable() would always return True even if the wrapped object was not callable. This resulted due to the existence of the __call__() method on the wrapper, required to support the possibility that the wrapped object may be called via the proxy object even if it may not turn out that the wrapped object was callable. Because checking for the existence of a __call__() method or using callable() can sometimes be used to indirectly infer the type of an object, this could cause issues. To ensure that this now doesn't occur, the ability to call a wrapped object via the proxy object has been removed from ObjectProxy. Instead, a new class CallableObjectProxy is now provided, with it being necessary to make a conscious choice as to which should be used based on whether the object to be wrapped is in fact callable. Note that neither before this change, or with the introduction of the class CallableObjectProxy, does the object proxy perform binding. If binding behaviour is required it still needs to be implemented explicitly to match the specific requirements of the use case. Alternatively, the FunctionWrapper class should be used which does implement binding, but also enforces a wrapper mechanism for manipulating what happens at the time of the call. Version 1.5.1 ------------- **Bugs Fixed** * Instance method locking for the synchronized decorator was not correctly locking on the instance but the class, if a synchronized class method had been called prior to the synchronized instance method. Version 1.5.0 ------------- **New Features** * Enhanced @wrapt.transient_function_wrapper so it can be applied to instance methods and class methods with the self/cls argument being supplied correctly. This allows instance and class methods to be used for this type of decorator, with the instance or class type being able to be used to hold any state required for the decorator. **Bugs Fixed** * If the wrong details for a function to be patched was given to the decorator @wrapt.transient_function_wrapper, the exception indicating this was being incorrectly swallowed up and mutating to a different more obscure error about local variable being access before being set. Version 1.4.2 ------------- **Bugs Fixed** * A process could crash if the C extension module was used and when using the ObjectProxy class a reference count cycle was created that required the Python garbage collector to kick in to break the cycle. This was occurring as the C extension had not implemented GC support in the ObjectProxy class correctly. Version 1.4.1 ------------- **Bugs Fixed** * Overriding __wrapped__ attribute directly on any wrapper more than once could cause corruption of memory due to incorrect reference count decrement. Version 1.4.0 ------------- **New Features** * Enhanced @wrapt.decorator and @wrapt.function_wrapper so they can be applied to instance methods and class methods with the self/cls argument being supplied correctly. This allows instance and class methods to be used as decorators, with the instance or class type being able to be used to hold any state required for the decorator. **Bugs Fixed** * Fixed process crash in extension when the wrapped object passed as first argument to FunctionWrapper did not have a tp_descr_get callback for the type at C code level. Now raised an AttributeError exception in line with what Python implementation does. Version 1.3.1 ------------- **Bugs Fixed** * The discover_post_import_hooks() function had not been added to the top level wrapt module. Version 1.3.0 ------------- **New Features** * Added a @transient_function_wrapper decorator for applying a wrapper function around a target function only for the life of a single function call. The decorator is useful for performing mocking or pass through data validation/modification when doing unit testing of packages. Version 1.2.1 ------------- **Bugs Fixed** * In C implementation, not dealing with unbound method type creation properly which would cause later problems when calling instance method via the class type in certain circumstances. Introduced problem in 1.2.0. * Eliminated compiler warnings due to missing casts in C implementation. Version 1.2.0 ------------- **New Features** * Added an 'enabled' option to @decorator and FunctionWrapper which can be provided a boolean, or a function returning a boolean to allow the work of the decorator to be disabled dynamically. When a boolean, is used for @decorator, the wrapper will not even be applied if 'enabled' is False. If a function, then will be called prior to wrapper being called and if returns False, then original wrapped function called directly rather than the wrapper being called. * Added in an implementation of a post import hook mechanism in line with that described in PEP 369. * Added in helper functions specifically designed to assist in performing monkey patching of existing code. **Features Changed** * Collapsed functionality of _BoundMethodWrapper into _BoundFunctionWrapper and renamed the latter to BoundFunctionWrapper. If deriving from the FunctionWrapper class and needing to override the type of the bound wrapper, the class attribute ``__bound_function_wrapper__`` should be set in the derived FunctionWrapper class to the replacement type. **Bugs Fixed** * When creating a custom proxy by deriving from ObjectProxy and the custom proxy needed to override __getattr__(), it was not possible to called the base class ObjectProxy.__getattr__() when the C implementation of ObjectProxy was being used. The derived class __getattr__() could also get ignored. * Using inspect.getargspec() now works correctly on bound methods when an adapter function can be provided to @decorator. Version 1.1.3 ------------- **New Features** * Added a _self_parent attribute to FunctionWrapper and bound variants. For the FunctionWrapper the value will always be None. In the case of the bound variants of the function wrapper, the attribute will refer back to the unbound FunctionWrapper instance. This can be used to get a back reference to the parent to access or cache data against the persistent function wrapper, the bound wrappers often being transient and only existing for the single call. **Improvements** * Use interned strings to optimise name comparisons in the setattro() method of the C implementation of the object proxy. **Bugs Fixed** * The pypy interpreter is missing operator.__index__() so proxying of that method in the object proxy would fail. This is a bug in pypy which is being addressed. Use operator.index() instead which pypy does provide and which also exists for CPython. * The pure Python implementation allowed the __wrapped__ attribute to be deleted which could cause problems. Now raise a TypeError exception. * The C implementation of the object proxy would crash if an attempt was made to delete the __wrapped__ attribute from the object proxy. Now raise a TypeError exception. Version 1.1.2 ------------- **Improvements** * Reduced performance overhead from previous versions. Most notable in the C implementation. Benchmark figures have been updated in documentation. Version 1.1.1 ------------- **Bugs Fixed** * Python object memory leak was occurring due to incorrect increment of object reference count in C implementation of object proxy when an instance method was called via the class and the instance passed in explicitly. * In place operators in pure Python object proxy for __idiv__ and __itruediv__ were not replacing the wrapped object with the result of the operation on the wrapped object. * In place operators in C implementation of Python object proxy were not replacing the wrapped object with the result of the operation on the wrapped object. Version 1.1.0 ------------- **New Features** * Added a synchronized decorator for performing thread mutex locking on functions, object instances or classes. This is the same decorator as covered as an example in the wrapt documentation. * Added a WeakFunctionProxy class which can wrap references to instance methods as well as normal functions. * Exposed from the C extension the classes _FunctionWrapperBase, _BoundFunctionWrapper and _BoundMethodWrapper so that it is possible to create new variants of FunctionWrapper in pure Python code. **Bugs Fixed** * When deriving from ObjectProxy, and the C extension variant was being used, if a derived class overrode __new__() and tried to access attributes of the ObjectProxy created using the base class __new__() before __init__() was called, then an exception would be raised indicating that the 'wrapper has not been initialised'. * When deriving from ObjectProxy, and the C extension variant was being used, if a derived class __init__() attempted to update attributes, even the special '_self_' attributed before calling the base class __init__() method, then an exception would be raised indicating that the 'wrapper has not been initialised'. Version 1.0.0 ------------- Initial release.