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Using Python 3.3, I want to bind a class Test to another class called TestManager so that the manager creates instances of Test and stores them to give an access to them afterwards.

In a nutshell (I mean, Python shell...), I want to be able to do this (assuming name is an attribute of Test):

> t = Test.objects.get(id=3)
> t.name
# Returns 'Name 3'

The trick is that my collection of objects is a "static" collection, in a sense that it is created at first (not by any user) and then never modified or deleted, nor its records removed or edited. It's fixed. So here is the code I tried:

class TestManager:
    def __init__(self, *args, **kwargs):
        self._tests = [Test(name='Name {}'.format(i)) for i in range(100)]

    def get(self, id):
        return self._tests[id]

class Test:
    objects = TestManager()

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

Aaaand, as expected, NameError: global name 'Test' is not defined due to the circular initialization. Ideally, I should have a create() method in the manager which would take care of adding elements in the list (instead of the __init__()), but that would mean that the creation is not done in the manager but elsewhere.

The "best" solution I came up with, so far, is to check first in the get() method if the list is empty, and thus call a fill_the_damn_list() method, but it seems very hackish to me. Another way to do that would be to use a dict instead of a list and to create the instances on the fly at first get(). The advantage of the latter one is that it does not create useless/never get()-ed instances, but with only an hundred of them in total, I am not sure it really matters, and the hackish-ness of this solution looks quite the same to me...

As I am quite new to Python (if it isn't clear enough...), I wonder if there is a better way to do that and to keep it simple. I am also OK to refactor if needed, but I didn't find any better solution yet...

share|improve this question
    
What is this circular reference good for? Shouldn't it suffice that the "TestManager" has a list of its tests? – Hyperboreus Dec 31 '12 at 15:37
1  
Assign the objects attribute after the creation of the class. Set it to None the class code and right after the Test class code set it to TestManager() – Bakuriu Dec 31 '12 at 15:40
1  
This design seems like a object factory in reverse. It doesn't make a lot of sense how it is written. The TestManager should be used to index into the collection like it is and not have to go through the Test class to get to this collection. – sean Dec 31 '12 at 15:46
up vote 1 down vote accepted

Your design seems a little odd -- it's unclear why the Test class needs a reference to a TestManger instance. Regardless, I think the following will make that happen. It uses a metaclass to create the objects attribute of the Test class and adds the _tests attribute you want to the TestManger instance it created -- which all go into making this a rather peculiar answer...fitting, I suppose. ;-)

class TestManager:
    def __init__(self, *args, **kwargs):
        print('creating TestManager')

    def get(self, id):
        return self._tests[id]

class TestMetaClass(type):
    def __new__(mcl, name, bases, classdict):
        # add an "objects" attribute to the class being created
        classdict['objects'] = tm = TestManager()
        cls = type.__new__(mcl, name, bases, classdict)
        # add a "_tests" attribute to the TestManager instance just created
        # (can't use class's name, since it hasn't been returned yet)
        tm._tests = [cls(name='Name {}'.format(i)) for i in range(100)]
        return cls

class Test(metaclass=TestMetaClass):
    def __init__(self, name=''):
        self.name = name

t = Test.objects.get(3)
print(t.name)
share|improve this answer
    
First of all, I am a junior developer, so I totally agree that my design skills have to be improved, which is why I am learning by doing and by getting opinion/advice from experienced people like you... I tried to keep the question simple, but I should have given a bit of context. I am building an online card game using Django, and I need to keep track of the card instances without storing them into the database. The Card.objects.get() syntax is also here to have a transparent way of accessing records of both Django model objects and my Card objects. Am I entirely wrong according to you? – astorije Jan 2 '13 at 11:00
    
@JérémieAstori: I'm not familiar with Django and what constraints it might be putting what you're trying to do. That said, I think the main difficulty arises from is you wanting to make the objects aware of a (or the) container/collection that's holding them (the TestManager), which introduces a circular dependency. General it can also create other problems, although you may be able to avoid many of them because the collection is static. Why can't you just make a Deck container and have TestManager create and use it? – martineau Jan 2 '13 at 17:01

I completely agree with sean's comment: your design is strange and, I think, quite useless, and this is causing problems even before starting using it. Anyway, if you want to do that you can use a lot of different methods.

The simple way:

class TestManager:
    def __init__(self, *args, **kwargs):
        self._tests = [Test(name='Name {}'.format(i)) for i in range(100)]

    def get(self, id):
        return self._tests[id]

class Test:
    objects = None

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

Test.objects = TestManager()

An other approach can be using a decorator:

>>> class TestManager(object):
...     def __init__(self, *args, **kwargs):
...             self._tests = []
...     def init_class(self, cls):
...             self._tests = [cls(name='Name {}'.format(i)) for i in range(100)]
...             cls.objects = self
...             return cls
...     def get(self, id):
...             return self._tests[id]
... 
>>> manager = TestManager()
>>> @manager.init_class
... class Test(object):
...     def __init__(self, name=''):
...             self.name = name
... 
>>> manager.get(5)
<__main__.Test object at 0x7f4319db8110>

The above recipe works if TestManager is a Singleton, but if it is not a singleton you simply have to remember to call TestManager.init_class(TheClass) before accessing the class instances, and that can be done anywhere in your code.

You can also use getters for this:

>>> class TheGetter(object):
...     def __init__(self, cls):
...             self._cls = cls
...             self._inst = None
...     def __get__(self, inst, owner):
...             if self._inst is None:
...                     self._inst = self._cls()
...             return self._inst
... 
>>> class Test(object):
...     objects = TheGetter(TestManager)
...     def __init__(self, name):
...             self.name = name
... 
>>> Test.objects.get(5)
<__main__.Test object at 0x7f431690c0d0>
share|improve this answer
    
I agree with your comments on my design, and therefore I gave some context details in a comment to martineau's answer. I hope it will be clearer this time... but if you have any comment at all about this design, I am more than open to suggestions!! :-) – astorije Jan 2 '13 at 11:04

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