well I'm new to SO, OOP and python too, so please be gentle ;)

I've looked for threads and explainations related to this scoping issue elsewhere and haven't found any. I would be grateful for any assistance.

Sample code:

class Zeus(object):
    def __init__(self):

    def get_name_1(self):
            print zeus.name
            print "impossible!?"

    def get_name_2(self,scope):
        print scope.name

class Maze(object):
    def get_zeus_name_1(self):
            print zeus.name
            print "can't be done!?"

    def get_zeus_name_2(self,scope):
        print scope.name

print 'now external calls:'


can't be done!?
now external calls:

During instantiation of zeus, if the __init__ method creates an instance of another class, maze, this new instance is not able to access its creator object, zeus (unless self is passed to it). (Additionally, if the __init__ method calls a method within its own class, get_name_1, that method cannot access its objects attributes either (unless self is passed to it).)

However, AFTER the objects are both instantiated, the second object, maze can now recognise and access its creator object, zeus.

This behaviour has caused me some confusion and difficulties, as I was working on some code where everything was initialised and run from the __init__ sequence - now I suppose that it is better to avoid that..

My questions:

  1. Why is this the case?
  2. Are problems that can arise through this best avoided by leaving instantiation, out of __init__ calls?
  3. Are there further design implications?
  4. Passing self to a new instance, seems as though it could create problems, due to self-referencing, should this also be avoided?
  5. Other interesting implications/ Am I missing something?

Thanks for your help.

  • 1
    What are you actually trying to do? You shouldn't refer to global objects inside the class, but to the instance itself, i.e. self, and if you need anything else, pass it as arguments. – Cat Plus Plus Jan 28 '12 at 13:09
  • 1
    zeus inside him is self – joaquin Jan 28 '12 at 13:14

get_zeus_name_1() is trying to access the global variable zeus, which has not yet been initialised at the moment when get_zeus_name_1() is called.

get_zeus_name_2() takes an argument (scope) and accesses that, which works. It doesn't try to access the global variable zeus.

Same story with get_name_1() and get_name_2().

I think the key point is to understand how python executes this line:


This line says to python: execute the method Zeus() (which is another name for the __init__(self) method in the Zeus class), and then assign the object returned by that method to the global variable zeus.

Python first executes the method Zeus() and then, after the init method has finished executing and returned an object-instance of the Zeus class, python assigns that object to the global variable zeus. So the global variable zeus has not been defined until after the init method finishes, so get_name_1() and get_zeus_name_1() cannot access it.

get_name_2() and get_zeus_name_2() access the same object-instance of the Zeus class as get_name_1() and get_zeus_name_1() try to access, but they access it via a parameter that is passed to them, not via the global variable, so they don't run into the problem.

Here is a simpler example that demonstrates exactly the same problem:

>>> class Foo:
...     def __init__(self):
...         self.name = 'foobar'
...         print self.name
...         print foo.name
>>> foo = Foo()
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 5, in __init__
NameError: global name 'foo' is not defined

The print self.name line works just fine (equivalent to get_name_2() and get_zeus_name_2()), but the print foo.name line crashes (equivalent to get_name_2() and get_zeus_name_2()).

  • good example - that really spells it out. But is it better practise to create a new object after the __init__ has finished, or to do it within __init__ and pass self in thus possibly running into circular reference. – fraxel Jan 28 '12 at 14:19
  • Inside an __init__ method it's probably safer to do: child = Child() and then child.parent = self like you suggest, to avoid a possible circular dependency if you do child = Child(self). However, it still wouldn't make a circular dependency impossible. A better design might be one where the child object doesn't need to have a reference to its parent object. – Sean Hammond Jan 28 '12 at 14:32

I suppose it's because of Python nature - it executes source code "line by line". In this line: zeus=Zeus() you create an object and __init__ method is called. When it executes there is no global zeus variable yet. I suppose you caught NameError: name 'zeus' is not defined (BTW, catching every exception is bad practice except: ...; instead you should catch only exceptions you expect; except NameError: ...).

You need to remember that in Python everything is happening in run-time. Here

x = 1 # x is just created, y 2 isn't created yet, you can't access it
y = 2 # y is just created, you can use it

This could also cause circular import, when module A imports module B, while module B imports something from module A, but module A isn't created yet - error.

In your case it'd be better to pass a link to original Zeus object to Maze object, like in __init__, and access it from Maze only after Zeus object is fully created.

  • Ok, I realised things happen in run-time, but I didn't think that the zeus global variable cannot be referenced/does not exist until the __init__ call is complete (I thought that would be the first thing it does).. I guess that does explain this. So is it better design practise to instantiate maze, after the zeus __init__ has finished (as a second line)? - or should I keep it in the __init__ but pass through self.? Also i realise the try/except use ideology, it was just to illustrate the issue. cheers. – fraxel Jan 28 '12 at 14:11
  • I don't know what option is better, it depends on what do you need. You could leave it in __init__ and pass self to Maze __init__, it looks like a good solution. – demalexx Jan 28 '12 at 14:22

Let see if I can make an example to help a bit.

If we want to work with a bunch of greek gods we need to start with a very simple GreekGod class:

class GreekGod(object):

    def __init__(self, name):
        self.name = name

zeus = GreekGod('Zeus')
athena = GreekGod('Athena')
print zeus.name

If now we want to do more, for example give at each greek god his own epithet, we need to add the epithet attribute to our class:

class GreekGod(object):

    def __init__(self, name, epithet):
        self.name = name
        self.epithet = epithet

    def get_catch_frase(self):
        return self.name + ' ' + self.epithet

zeus = GreekGod('Zeus', 'Father of the gods')
print zeus.get_catch_frase()  # -> Zeus Father of the gods

As you can see the method get_catch_frase return a string, does not print that string, this behaviour is expected when you call a method "get_something" because one would expect that something to be returnd, and nothing else.

I also hope you see the role of self which represents the object instance inside the class.

  • You forgot to assign epithet a value :) – demalexx Jan 28 '12 at 14:02
  • @demalexx: Thanks, fixed! – Rik Poggi Jan 28 '12 at 14:06
  • Thanks, for clarification on how to I should use the "get_" prefix. But I don't see how you are answering my question? – fraxel Jan 28 '12 at 15:19
  • @fraxel: Infact I didn't answer to your "question mark" questions (there were already good answers for those), but since neither get_name_1 or 2 had the correct approach which would have been return self.name and since you said to be new to python, I thought to show you that. But build a method with a simple return self.name would have been silly because you can simply use zeus.name when you want the name (and I wouldn't made things more complicate with private attributes and property), so I created the epithet variant above. – Rik Poggi Jan 29 '12 at 10:10
  • @fraxel: Is it more clear now? – Rik Poggi Jan 29 '12 at 10:10

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