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I implemented a metaclass that tears down the class attributes for classes created with it and builds methods from the data from those arguments, then attaches those dynamically created methods directly to the class object (the class in question allows for easy definition of web form objects for use in a web testing framework). It has been working just fine, but now I have a need to add a more complex type of method, which, to try to keep things clean, I implemented as a callable class. Unfortunately, when I try to call the callable class on an instance, it is treated as a class attribute instead of an instance method, and when called, only receives its own self. I can see why this happens, but I was hoping someone might have a better solution than the ones I've come up with. Simplified illustration of the problem:

class Foo(object):
    def __init__(self, name, val):
        self.name = name
        self.val = val
        self.__name__ = name + '_foo'
        self.name = name
    # This doesn't work as I'd wish
    def __call__(self, instance):
        return self.name + str(self.val + instance.val)

def get_methods(name, foo_val):
    foo = Foo(name, foo_val)
    def bar(self):
        return name + str(self.val + 2)
    bar.__name__ = name + '_bar'
    return foo, bar

class Baz(object):
    def __init__(self, val):
        self.val = val

for method in get_methods('biff', 1):
    setattr(Baz, method.__name__, method)
baz = Baz(10)
# baz.val == 10
# baz.biff_foo() == 'biff11'
# baz.biff_bar() == 'biff12'

I've thought of:

  1. Using a descriptor, but that seems way more complex than is necessary here
  2. Using a closure inside of a factory for foo, but nested closures are ugly and messy replacements for objects most of the time, imo
  3. Wrapping the Foo instance in a method that passes its self down to the Foo instance as instance, basically a decorator, that is what I actually add to Baz, but that seems superfluous and basically just a more complicated way of doing the same thing as (2)

Is there a better way then any of these to try to accomplish what I want, or should I just bite the bullet and use some closure factory type pattern?

share|improve this question

2 Answers 2

up vote 1 down vote accepted

One way to do this is to attach the callable objects to the class as unbound methods. The method constructor will work with arbitrary callables (i.e. instances of classes with a __call__() method)—not just functions.

from types import MethodType

class Foo(object):
    def __init__(self, name, val):
        self.name = name
        self.val = val
        self.__name__ = name + '_foo'
        self.name = name
    def __call__(self, instance):
        return self.name + str(self.val + instance.val)

class Baz(object):
    def __init__(self, val):
        self.val = val

Baz.biff = MethodType(Foo("biff", 42), None, Baz)

b = Baz(13)
print b.biff()
>>> biff55

In Python 3, there's no such thing as an unbound instance (classes just have regular functions attached) so you might instead make your Foo class a descriptor that returns a bound instance method by giving it a __get__() method. (Actually, that approach will work in Python 2.x as well, but the above will perform a little better.)

from types import MethodType

class Foo(object):
    def __init__(self, name, val):
        self.name = name
        self.val = val
        self.__name__ = name + '_foo'
        self.name = name
    def __call__(self, instance):
        return self.name + str(self.val + instance.val)
    def __get__(self, instance, owner):
        return MethodType(self, instance) if instance else self
        # Python 2: MethodType(self, instance, owner)

class Baz(object):
    def __init__(self, val):
        self.val = val

Baz.biff = Foo("biff", 42)

b = Baz(13)
print b.biff()
>>> biff55
share|improve this answer
    
This doesn't work in Python 3, since unbound methods no longer exist (MethodType only takes two arguments, and the second must not be None). –  Blckknght Jan 25 '13 at 17:52
    
I think I was updating that while you wrote that comment. :-) –  kindall Jan 25 '13 at 18:00
    
I've written descriptors before, but I guess the descriptor isn't that messy in this case, really... I've poked at MethodType before, but to be honest, it always kind of scares me, since it seems so easy to break, what with needing to basically initialize its namespace and whatnot. I ended up implementing another closure, but I might go back and look at replacing it with this. Thanks. –  Silas Ray Jan 25 '13 at 18:24
    
MethodType is not that complicated, really. You need a function (or other callable), an instance (if you're making an instance method; in Python 3 that's the only kind you can make), and a type (in Python 2.x; in Python 3 it gets the type from the instance). That's it. –  kindall Jan 30 '13 at 23:07

The trouble you're running into is that your object is not being bound as a method of the Baz class you're putting it in. This is because it is not a descriptor, which regular functions are!

You can fix this by adding a simple __get__ method to your Foo class that makes it into a method when it's accessed as a descriptor:

import types

class Foo(object):
    # your other stuff here

    def __get__(self, obj, objtype=None):
        if obj is None:
            return self # unbound
        else:
            return types.MethodType(self, obj) # bound to obj
share|improve this answer
    
I don't think you need the if/else in that since __get__() won't be called when a Foo instance is accessed through a class anyway. –  kindall Jan 25 '13 at 18:25
    
@kindall: If I don't have the if block, I get an exception when I access the Foo instance via the class: TypeError: self must not be None. That's "class binding" which still exists in Python 3, even though functions don't use it to make unbound methods any more. –  Blckknght Jan 25 '13 at 19:26
    
Yep... you're right. –  kindall Jan 25 '13 at 20:02

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