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In Python, how do I get a reference to the current class object within a class statement? Example:

def setup_class_members(cls, prefix):
    setattr(cls, prefix+"_var1", "hello")
    setattr(cls, prefix+"_var2", "goodbye")

class myclass(object):
    setup_class_members(cls, "coffee")  # How to get "cls"?

    def mytest(self):
        print(self.coffee_var1)
        print(self.coffee_var2)

x = myclass()
x.mytest()

>>> hello
>>> goodbye


Alternatives that I've written off are:

  1. Use locals(): This gives a dict in a class statement that can be written to. This seems to work for classes, however the documentation tells you not to do this. (I might be tempted to go with this alternative if someone can assure me that this will continue to work for some time.)

  2. Add members to the class object after the class statement: My actual application is to derive a PyQt4 QWidget class with dynamically created pyqtProperty class attributes. QWidget is unusual in that it has a custom metaclass. Very roughly, the metaclass compiles a list of pyqtProperties and stores it as additional member. For this reason, properties that are added to the class after creation have no effect. An example to clear this up:

from PyQt4 import QtCore, QtGui


# works
class MyWidget1(QtGui.QWidget):
    myproperty = QtCore.pyqtProperty(int)


# doesn't work because QWidget's metaclass doesn't get to "compile" myproperty
class MyWidget2(QtGui.QWidget):
    pass
MyWidget2.myproperty = QtCore.pyqtProperty(int)

Please note that the above will work for most programming cases; my case just happens to be one of those unusual corner cases.

share|improve this question
    
mouad's answer is definitely the one to go with, but to describe what's happening: The class definition is just executing a series of statements within it's own local scope. Once that finishes, the class name, the list of base classes, and the resulting locals dict are passed to the type constructor as type(class_name, bases_tuple, locals_dict) which then returns cls. Thus, cls isn't available at the point you want, only afterwards. Also, using a metaclass will cause it to be called in place of type, and with the same signature. –  Eli Collins Aug 31 '11 at 19:31
    
I didn't know about that locals() trick working in classes. Interesting bit of trivia. :-) –  kindall Aug 31 '11 at 19:54

4 Answers 4

up vote 2 down vote accepted

AFAIK there is two way to do what you want:

  1. Using metaclass, this will create your two variables in class creation time (which i think is what you want):

    class Meta(type):
        def __new__(mcs, name, bases, attr):
            prefix = attr.get("prefix")
            if prefix:
                attr[prefix+"_var1"] = "hello"
                attr[prefix+"_var2"] = "goodbye"
    
            return type.__new__(mcs, name, bases, attr)
    
    class myclass(object):
        __metaclass__ = Meta
        prefix = "coffee"
    
        def mytest(self):
            print(self.coffee_var1)
            print(self.coffee_var2)
    
  2. Create your two class variable in instantiation time:

    class myclass(object): prefix = "coffee"

     def __init__(self):     
         setattr(self.__class__, self.prefix+"_var1", "hello")
         setattr(self.__class__, self.prefix+"_var2", "goodbye")
    
     def mytest(self):
         print(self.coffee_var1)
         print(self.coffee_var2)
    

N.B: I'm not sure what you want to achieve because if you want to create dynamic variables depending on the prefix variable why are you accessing like you do in your mytest method ?! i hope it was just an example.

share|improve this answer
    
i'm not sure why the code formatting don't work for me ?! –  mouad Aug 31 '11 at 16:56
    
Yes, example is silly. This solution looks very promising. I failed to mention I am using Python 3 which appears to have different metaclass support. Working out the differences now... –  goertzenator Aug 31 '11 at 18:15

For Python 3, the class must be declared as

class myclass(object, metaclass = Meta):
   prefix = "coffee"
   ...


A few other points:

  • The metaclass may be a callable, not just a class (Python 2&3)

  • If the base class of your class already has a non-standard metaclass, you have to make sure you call it's __init__() and __new__() methods instead of type's.

  • The class statement accepts keyword parameters that are passed on to the metaclass (Python 3 only)

A rewrite of mouad's solution in Python 3 using all of the above is...

def MetaFun(name, bases, attr, prefix=None):
    if prefix:
        attr[prefix+"_var1"] = "hello"
        attr[prefix+"_var2"] = "goodbye"

    return object.__class__(name, bases, attr)

class myclass(object, metaclass = MetaFun, prefix="coffee"):
    def mytest(self):
        print(self.coffee_var1)
        print(self.coffee_var2)
share|improve this answer
    
+1, for porting my initial answer to python 3, and for teaching me that metaclasses can be any callable (which i didn't know), by the way what should we call them metaclass function or metafunction ;-), beside this i have some remarks (questions) if i may: 1. If you are writing for python 3 you don't need to inherit explicitly from object just class myclass(metaclass=MetaFun, prefix="coffee") 2. why are you calling object.__class__ instead of type(...) it's the same of course but i will prefer the latest just wondering :) –  mouad Aug 31 '11 at 20:38
    
@mouad: 1. You are correct, I could have elided object as the base class. 2. In my actual application, the base class (PyQt4.QtGui.QWidget) had a metaclass that was not type, giving me an error when I used type. By using object.__class__ I'm illustrating how to retrieve the actual base metaclass. –  goertzenator Sep 1 '11 at 12:44

See zope.interface.declarations._implements for an example of doing this kind of magic. Just be warned that it's a serious maintainability and portability risk.

share|improve this answer

Two more approaches you might use:

A class decorator.

def setup_class_members(prefix):

    def decorator(cls):
        setattr(cls, prefix+"_var1", "hello")
        setattr(cls, prefix+"_var2", "goodbye")
        return cls

    return decorator

@setup_class_members("coffee")
class myclass(object):
    # ... etc

Especially if you need to add attributes in various combinations, the decorator approach is nice because it does not have any effect on inheritance.

If you are dealing with a small set of of attributes that you wish to combine in various ways, you can use mixin classes. A mixin class is a regular class, it's just intended to "mix in" various attributes to some other class.

class coffee_mixin(object):
    coffee_var1 = "hello"
    cofefe_var2 = "goodbye"

class tea_mixin(object):
    tea_var1 = "good morning old bean"
    tea_var2 = "pip pip cheerio"

class myclass(coffee_mixin, tea_mixin):
    # ... etc
share|improve this answer
    
+1, For the decorator approach , why i didn't think about it :) –  mouad Aug 31 '11 at 20:25

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