This is a question I tried to avoid several times, but I finally couldn't escape the subject on a recent project. I tried various solutions and decided to use one of them and would like to share it with you. Many solutions on internet simply don't work and I think it could help people not very fluent with classes and metaclasses.
I have hierarchy of classes, each with some class variables which I need to read when I instantiate objects. However, either these variables will be overwritten, or their name would be mangled if it has the form __variable
. I can perfectly deal with the mangled variables, but I don't know, with an absolute certainty, which attribute I should look in the namespace of my object. Here are my definitions, including the class variables.
class BasicObject(object):
__attrs = 'size, quality'
...
class BasicDBObject(BasicObject):
__attrs = 'db, cursor'
...
class DbObject(BasicDBObject):
__attrs = 'base'
...
class Splits(DbObject):
__attrs = 'table'
...
I'd like to collect all values stored in __attrs
of each class when Instantiate the Splits
class. The method __init__()
is only defined in the class BasicObject
and nowhere else. Though, I need to scan self.__dict__
for mangled __attrs
attributes. Since other attributes have the pattern attrs
in these objects, I can't filter out the dictionary for everything with the pattern __attrs
in it ! Therefore, I need to collect the class hierarchy for my object, and search for the mangled attributes for all these classes.
Hence, I will use a metaclass
to catch each class which calls __new__()
method which is being executed when a class
definition is encountered when loading a module. By defining my own __new__()
method in the base class, I'll be able to catch classes when each class is instantiated (instantiation of the class
, not an object instantiation).
Here is the code :
import collections
class BasicObject(object) :
class __metaclass__(type) :
__parents__ = collections.defaultdict(list)
def __new__(cls, name, bases, dct) :
klass = type.__new__(cls, name, bases, dct)
mro = klass.mro()
for base in mro[1:-1] :
cls.__parents__[name] = mro[1]
return klass
def __init__(self, *args, **kargs) :
"""
Super class initializer.
"""
this_name = self.__class__.__name__
parents = self.__metaclass__.__parents__
hierarchy = [self.__class__]
while this_name in parents :
try :
father = parents[this_name]
this_name = father.__name__
hierarchy.append(father)
except :
break
print(hierarchy)
...
I could have access attributes using the class definition, but all these classes are defined in three different modules and the main one (init.py
) doesn't know anything about the other modules.
This code works well in Python 2.7 and should also work in Python 3.. However, Python 3. have some new features which may help write a simpler code for this kind of introspection, but I haven't had the time to investigate it in Python 3.0.
I hope this short explanation and example will save some of your (precious) time :-)