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This doesn't work:

def register_method(name=None):
    def decorator(method):
        # The next line assumes the decorated method is bound (which of course it isn't at this point)
        cls = method.im_class
        cls.my_attr = 'FOO BAR'
        def wrapper(*args, **kwargs):
            method(*args, **kwargs)
        return wrapper
    return decorator

Decorators are like the movie Inception; the more levels in you go, the more confusing they are. I'm trying to access the class that defines a method (at definition time) so that I can set an attribute (or alter an attribute) of the class.

Version 2 also doesn't work:

def register_method(name=None):
    def decorator(method):
        # The next line assumes the decorated method is bound (of course it isn't bound at this point).
        cls = method.__class__  # I don't really understand this.
        cls.my_attr = 'FOO BAR'
        def wrapper(*args, **kwargs):
            method(*args, **kwargs)
        return wrapper
    return decorator

The point of putting my broken code above when I already know why it's broken is that it conveys what I'm trying to do.

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and crafting a metaclass wouldn't help? –  jldupont Oct 7 '10 at 20:06
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2 Answers

up vote 6 down vote accepted

I don't think you can do what you want to do with a decorator (quick edit: with a decorator of the method, anyway). The decorator gets called when the method gets constructed, which is before the class is constructed. The reason your code isn't working is because the class doesn't exist when the decorator is called.

jldupont's comment is the way to go: if you want to set an attribute of the class, you should either decorate the class or use a metaclass.

EDIT: okay, having seen your comment, I can think of a two-part solution that might work for you. Use a decorator of the method to set an attribute of the method, and then use a metaclass to search for methods with that attribute and set the appropriate attribute of the class:

def TaggingDecorator(method):
  "Decorate the method with an attribute to let the metaclass know it's there."
  method.my_attr = 'FOO BAR'
  return method # No need for a wrapper, we haven't changed
                # what method actually does; your mileage may vary

class TaggingMetaclass(type):
  "Metaclass to check for tags from TaggingDecorator and add them to the class."
  def __new__(cls, name, bases, dct):
    # Check for tagged members
    has_tag = False
    for member in dct.itervalues():
      if hasattr(member, 'my_attr'):
        has_tag = True
        break
    if has_tag:
      # Set the class attribute
      dct['my_attr'] = 'FOO BAR'
    # Now let 'type' actually allocate the class object and go on with life
    return type.__new__(cls, name, bases, dct)

That's it. Use as follows:

class Foo(object):
  __metaclass__ = TaggingMetaclass
  pass

class Baz(Foo):
  "It's enough for a base class to have the right metaclass"
  @TaggingDecorator
  def Bar(self):
    pass

>> Baz.my_attr
'FOO BAR'

Honestly, though? Use the supported_methods = [...] approach. Metaclasses are cool, but people who have to maintain your code after you will probably hate you.

share|improve this answer
    
thanks. I'll start regrowing the hair I've lost in the last hour now :) How would I go about doing that though? I don't understand meta classes, but I also don't understand how decorating the class could help with what I'm doing. To clarify, I need to be able to run a method on instances of the class self.supports_method(method_name_string) to see if the methods are supported. I'm trying to make it "cool" though without sub-classers having to declare a supported_methods = ['method_one', 'method_two'] attribute on each class. –  orokusaki Oct 7 '10 at 20:31
    
@orokusaki: see the edit. –  Peter Milley Oct 7 '10 at 20:55
    
excellent - I just spent the last 30 minutes reading on IBM and other SO questions about meta classes and I'm glad I did. I came to the conclusion (based on the use of func.is_hook in an SO answer) that I would need to mark the methods for inclusion in my decorator (unless I wanted to trust pure meta-magic to figure out what I wanted through other conventions). I was about to hang myself after I realized how much more "figuring out" I had left for the day. That's what I refreshed the page :) You just saved the rest of my hair. Thanks Peter. –  orokusaki Oct 7 '10 at 21:04
    
I might trust your wisdom about not using Meta programming for this, but not until I do it first :) (I'll forget how if I don't). –  orokusaki Oct 7 '10 at 21:05
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Rather than use a metaclass, in python 2.6+ you should use a class decorator. You can wrap the function and class decorators up as methods of a class, like this real-world example.

I use this example with djcelery; the important aspects for this problem are the "task" method and the line "args, kw = self.marked[klass.dict[attr]]" which implicitly checks for "klass.dict[attr] in self.marked". If you want to use @methodtasks.task instead of @methodtasks.task() as a decorator, you could remove the nested def and use a set instead of a dict for self.marked. The use of self.marked, instead of setting a marking attribute on the function as the other answer did, allows this to work for classmethods and staticmethods which, because they use slots, won't allow setting arbitrary attributes. The downside of doing it this way is that the function decorator MUST go above other decorators, and the class decorator MUST go below, so that the functions are not modified / re=wrapped between one and the other.

class DummyClass(object):
    """Just a holder for attributes."""
    pass

class MethodTasksHolder(object):
    """Register tasks with class AND method decorators, then use as a dispatcher, like so:

    methodtasks = MethodTasksHolder()

    @methodtasks.serve_tasks
    class C:
        @methodtasks.task()
        #@other_decorators_come_below
        def some_task(self, *args):
            pass

        @methodtasks.task()
        @classmethod
        def classmethod_task(self, *args):
            pass

        def not_a_task(self):
            pass

    #..later
    methodtasks.C.some_task.delay(c_instance,*args) #always treat as unbound
        #analagous to c_instance.some_task(*args) (or C.some_task(c_instance,*args))
    #...
    methodtasks.C.classmethod_task.delay(C,*args) #treat as unbound classmethod!
        #analagous to C.classmethod_task(*args)
    """ 
    def __init__(self):
        self.marked = {}

    def task(self, *args, **kw):
        def mark(fun):
            self.marked[fun] = (args,kw)
            return fun
        return mark

    def serve_tasks(self, klass):
        setattr(self, klass.__name__, DummyClass())
        for attr in klass.__dict__:
            try:
                args, kw = self.marked[klass.__dict__[attr]]
                setattr(getattr(self, klass.__name__), attr, task(*args,**kw)(getattr(klass, attr)))
            except KeyError:
                pass
        #reset for next class
        self.marked = {}
        return klass
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