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We have found that we have a set of attributes(all are not going to change and pulled from the environment at runtime) exist in majority of our classes. I tried searching around for this but unfortunately "object" is a very common word.

What type of issues will I cause if I do the following:

class MasterObjectv2(object):
     UNIQUE_KEY = getUniqueKey()
     #other properties for all objects in our system

or is this better:

class MasterObject(object):
    def __init__(self):
        #other properties for all objects in our system

or option 3

# is that its a really dumb idea to do this.

I was thinking about doing the first because I don't have to worry about someone not calling init on MasterObject.

Obviously our class would change from

class Test(object):
   def __init__(self): 
        self.UNIQUE_KEY = getUniqueKey()


class Test(MasterObject):
    def __init__(self): pass


These answers dont answer my question. I am not asking what I should do, I am asking about what are the side effects/things to think about if we were going to go down this path.

I am considering using an environment.* type class but I first want to know what the side effects might be* if I go down the other path.

I don't want this to turn into a composition versus inheritance debate... ;)

share|improve this question
Do these attributes vary from class to class? – jfocht Jun 23 '11 at 13:41
We have a system that is multiprocessed, but once the process is kicked off the env vars that we read in (config, env, etc) will not change. – Nix Jun 23 '11 at 13:42
Why do they need to be class members? Why can't you say environment.UNIQUE_KEY instead of self.UNIQUE_KEY, for example? Where environment is some module you create and import in your other modules. – FogleBird Jun 23 '11 at 13:47
Or are these keys different for each object you create? – FogleBird Jun 23 '11 at 13:49
Because options 1 and 2 have very different results if getUniqueKey returns a different value each time it is called. – FogleBird Jun 23 '11 at 13:50
up vote 1 down vote accepted

With python you can easily control object construction in addition to object initialization; for example defining

class Master(object):
    def __new__(klass, *args, **kwargs):
        self = object.__new__(klass)
        self.attribute1 = ...
        self.attribute2 = ...
        return self

The code in __new__ is executed before the __init__ eventually defined in the derived class is started (so it doesn't matter if derived class doesn't call Master.__init__(self)). You can use __new__ to setup some attributes in the instance before the start of __init__.

Whether or not this is a reasonable thing to do in your case largely depends on details that you did not provide.

share|improve this answer

Will the values of the attributes, once taken from the environment, be the same for all those classes? If so, you'd probably be better off just keeping a dict of those environmental attributes at module level. (Or, as someone else suggested, use a module to populate and store the environmental variables.)

If not, my suggestion would be to use create a class method that you would use to populate a dictionary of the environmental variables in your classes the first time __init__ is called for each of them.

share|improve this answer

Use option #1 if the attributes are static. Since the attribute is a property of the class and doesn't change from instance to instance, this seems the right choice. You will not cause any issues by going with option #1 (assuming your classes were implemented similar to Test).

class MasterObjectv2(object):
     UNIQUE_KEY = getUniqueKey()
     #other properties for all objects in our system

Then your Test class could be implemented as follows:

class Test(MasterObject):
share|improve this answer

Do you really need those as attributes in your actual classes? Sounds like keeping them in some "configuration object" and just accessing it from the classes is a more robust idea.

Prefer to keep inheritance strictly for cases where an is-a relationship is implied, which in your case isn't true, AFAIU.

share|improve this answer
Yes, we need those in the classes, and we want them contained within the classes for code-ability/readability reasons. I don't want this to turn into a composition versus inheritance debate. – Nix Jun 23 '11 at 13:38
@Nix: uhm, option 3, then ;-) – Eli Bendersky Jun 23 '11 at 13:47
your opinion has been noted, and one thing I guess I need to think about is the memory that is being wasted by inheritance because we do care about memory consumption. Just constantly having to write the same set of common code is uber annoying. – Nix Jun 23 '11 at 13:55
@Nix: not only memory consumption, but also a performance hit if each instance will start reading the environment. You can of course make it lazy reading (so only the first read does something and the others are free) but that's just similar to having an env/config object instead. Other than that you can of course use inheritance in the way you propose - it will work, but IMHO it's an abuse of a language feature for something it was not designed to do. – Eli Bendersky Jun 23 '11 at 14:04

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