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In Python 2.5, is there a way to create a decorator that decorates a class? Specifically, I want to use a decorator to add a member to a class and change the constructor to take a value for that member.

Looking for something like the following (which has a syntax error on 'class Foo:':

def getId(self): return self.__id

class addID(original_class):
    def __init__(self, id, *args, **kws):
        self.__id = id
        self.getId = getId
        original_class.__init__(self, *args, **kws)

@addID
class Foo:
    def __init__(self, value1):
        self.value1 = value1

if __name__ == '__main__':
    foo1 = Foo(5,1)
    print foo1.value1, foo1.getId()
    foo2 = Foo(15,2)
    print foo2.value1, foo2.getId()

Thanks, Rob

Edit: Rereading this question, I guess what I'm really after is a way to do something like a C# interface in Python. I need to switch my paradigm I suppose.

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31  
While that's useful, Python decorators are different than the decorator pattern. An unfortunate name I suppose. I may end up going that way, though. Thanks. –  Robert Gowland Mar 25 '09 at 15:33
13  
@Robert Gowland: Very diplomatic. –  Jarret Hardie Mar 26 '09 at 0:25
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5 Answers

up vote 49 down vote accepted

I would second the notion that you may wish to consider a subclass instead of the approach you've outlined. However, not knowing your specific scenario, YMMV :-)

What you're thinking of is a metaclass. The __new__ function in a metaclass is passed the full proposed definition of the class, which it can then rewrite before the class is created. You can, at that time, sub out the constructor for a new one.

Example:

def substitute_init(self, id, *args, **kwargs):
    pass

class FooMeta(type):

    def __new__(cls, name, bases, attrs):
        attrs['__init__'] = substitute_init
        return super(FooMeta, cls).__new__(cls, name, bases, attrs)

class Foo(object):

    __metaclass__ = FooMeta

    def __init__(self, value1):
        pass

Replacing the constructor is perhaps a bit dramatic, but the language does provide support for this kind of deep introspection and dynamic modification.

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Thank-you, that's what I'm looking for. A class that can modify any number of other classes such that they all have a particular member. My reasons for not having the classes inherit from a common ID class is that I want to have non-ID versions of the classes as well as ID versions. –  Robert Gowland Mar 25 '09 at 15:51
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Apart from the question whether class decorators are the right solution to your problem:

in Python 2.6 and higher, there are class decorators with the @-syntax, so you can write:

@addID
class Foo:
    pass

in older versions, you can do it another way:

class Foo:
    pass

Foo = addID(Foo)

Note however that this works the same as for function decorators, and that the decorator should return the new (or modified original) class, which is not what you're doing in the example. The addID decorator would look like this:

def addID(original_class):
    orig_init = original_class.__init__
    # make copy of original __init__, so we can call it without recursion

    def __init__(self, id, *args, **kws):
        self.__id = id
        self.getId = getId
        orig_init(self, *args, **kws) # call the original __init__

    original_class.__init__ = __init__ # set the class' __init__ to the new one
    return original_class

You could then use the appropriate syntax for your python version as described above.

But I agree with others that inheritance is better suited if you want to override __init__.

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11  
+1 for noting that Python 2.6+ has class decorators. –  Jarret Hardie Mar 26 '09 at 0:27
5  
Sorry for the linesep mess, but code samples aren't strictly great in comments...: def addID(original_class): original_class.__orig__init__ = original_class.__init__ def init__(self, *args, **kws): print "decorator" self.id = 9 original_class.__orig__init__(self, *args, **kws) original_class.__init = init return original_class @addID class Foo: def __init__(self): print "Foo" a = Foo() print a.id –  Gerald Senarclens de Grancy Jul 28 '10 at 19:18
2  
@Steven, @Gerald is right, if you could update your answer, it would be a lot easier to read his code ;) –  Day Feb 8 '11 at 17:20
3  
@Day: thanks for the reminder, I hadn't noticed the comments before. However: I get maximum recursion depth exceeded with Geralds code as well. I'll try and make a working version ;-) –  Steven Feb 8 '11 at 21:05
1  
@Day and @Gerald: sorry, issue wasn't with Gerald's code, I messed up because of the mangled code in the comment ;-) –  Steven Feb 8 '11 at 22:02
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That's not a good practice and there is no mechanism to do that because of that. The right way to accomplish what you want is inheritance.

Take a look into the class documentation.

A little example:

class Employee(object):

    def __init__(self, age, sex, siblings=0):
        self.age = age
        self.sex = sex    
        self.siblings = siblings

    def born_on(self):    
        today = datetime.date.today()

        return today - datetime.timedelta(days=self.age*365)


class Boss(Employee):    
    def __init__(self, age, sex, siblings=0, bonus=0):
        self.bonus = bonus
        Employee.__init__(self, age, sex, siblings)

This way Boss has everything Employee has, with also his own __init__ method and own members.

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3  
I guess what I wanted to was have Boss agnostic of the class that it contains. That is, there may be dozens of different classes that I want to apply Boss features to. Am I left with having these dozen classes inherit from Boss? –  Robert Gowland Mar 25 '09 at 15:40
4  
@Robert Gowland: That's why Python has multiple inheritance. Yes, you should inherit various aspects from various parent classes. –  S.Lott Mar 25 '09 at 17:16
6  
@S.Lott: In general multiple inheritance is a bad idea, even too much levels of inheritance is bad too. I shall recommend you to stay away from multiple inheritance. –  mpeterson Mar 26 '09 at 12:39
4  
mpeterson: Is multiple inheritance in python worse than this approach? What's wrong with python's multiple inheritance? –  Arafangion Aug 4 '09 at 2:00
2  
@Arafangion: Multiple inheritance is generally considered to be a warning sign of trouble. It makes for complex hierarchies and hard-to-follow relationships. If your problem domain lends itself well to multi inheritance, (can it be modelled hierarchycally?) it is a natural choice for many. This applies to all languages that allow multi-inheritance. –  Morten Jensen Sep 19 '12 at 6:48
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There's actually a pretty good implementation of a class decorator here:

https://github.com/agiliq/Django-parsley/blob/master/parsley/decorators.py

I actually think this is a pretty interesting implementation. Because it subclasses the class it decorates, it will behave exactly like this class in things like isinstance checks.

It has an added benefit: it's not uncommon for the __init__ statement in a custom django Form to make modifications or additions to self.fields so it's better for changes to self.fields to happen after all of __init__ has run for the class in question.

Very clever.

However, in your class you actually want the decoration to alter the constructor, which I don't think is a good use case for a class decorator.

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no-one has explained that you can dynamically define classes. so you can have a decorator that defines (and returns) a subclass:

def addId(cls):

    class AddId(cls):

        def __init__(self, id, *args, **kargs):
            super(AddId, self).__init__(*args, **kargs)
            self.__id = id

        def getId(self):
            return self.__id

    return AddId

which can be used in python 2 (the comment from Blckknght which explains why you should continue to do this in 2.6+) like this:

class Foo:
    pass

FooId = addId(Foo)

and in python 3 like this (but be careful to use super() in your classes):

@addId
class Foo:
    pass

so you can have your cake and eat it - inheritance and decorators!

share|improve this answer
    
Subclassing in a decorator is dangerous in Python 2.6+, because it breaks super calls in the original class. If Foo had a method named foo that called super(Foo, self).foo() it would recurse infinitely, because the name Foo is bound to the subclass returned by the decorator, not the original class (which is not accessible by any name). Python 3's argumentless super() avoids this issue (I assume via the same compiler magic that allows it to work at all). You can also work around the issue by manually decorating the class under different name (as you did in the Python 2.5 example). –  Blckknght Sep 21 '13 at 22:02
    
huh. thanks, i had no idea (i use python 3). will add a comment. –  andrew cooke Sep 21 '13 at 22:03
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