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I have a class that keeps track of its instances in a class variable, something like this:

class Foo:
    by_id = {}

    def __init__(self, id):
        self.id = id
        self.by_id[id] = self

What I'd like to be able to do is iterate over the existing instances of the class. I can do this with:

for foo in Foo.by_id.values():
    foo.do_something()

but it would look neater like this:

for foo in Foo:
    foo.do_something()

is this possible? I tried defining a classmethod __iter__, but that didn't work.

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4  
Please show your classmethod __iter__, and an example of it failing. –  Marcin May 30 '12 at 10:37
5  
Be aware, however, that you'll never get rid of your instances. You should work with weak references. –  glglgl May 30 '12 at 10:46
1  
Fortunately, life time of instances is not an issue. But I'd love to see how it should be done. –  xorsyst May 30 '12 at 10:55

2 Answers 2

up vote 18 down vote accepted

If you want to iterate over the class, you have to define a metaclass which supports iteration.

x.py:

class it(type):
    def __iter__(self):
        # Wanna iterate over a class? Then ask that class for iterator.
        return self.classiter()

class Foo:
    __metaclass__ = it # We need that meta class...
    by_id = {} # Store the stuff here...

    def __init__(self, id): # new isntance of class
        self.id = id # do we need that?
        self.by_id[id] = self # register istance

    @classmethod
    def classiter(cls): # iterate over class by giving all instances which have been instantiated
        return iter(cls.by_id.values())

if __name__ == '__main__':
    a = Foo(123)
    print list(Foo)
    del a
    print list(Foo)

As you can see in the end, deleting an instance will not have any effect on the object itself, because it stays in the by_id dict. You can cope with that using weakrefs when you

import weakref

and then do

by_id = weakref.WeakValueDictionary()

. This way the values will only kept as long as there is a "strong" reference keeping it, such as a in this case. After del a, there are only weak references pointing to the object, so they can be gc'ed.

Due to the warning concerning WeakValueDictionary()s, I suggest to use the following:

[...]
    self.by_id[id] = weakref.ref(self)
[...]
@classmethod
def classiter(cls):
    # return all class instances which are still alive according to their weakref pointing to them
    return (i for i in (i() for i in cls.by_id.values()) if i is not None)

Looks a bit complicated, but makes sure that you get the objects and not a weakref object.

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What about the weak references you were talking about? I wasn't quite sure what you meant, and this answer also doesn't contain anything about it –  Niklas B. May 30 '12 at 10:49
3  
Nice touch, delegating iteration back to a method on the class. –  Martijn Pieters May 30 '12 at 10:51
1  
I know I suggested weakref.WeakValueDictionary, but note the warning. It might actually be better to store weakrefs, and dereference them in the iterator. –  Marcin May 30 '12 at 10:55
1  
PEP8 recommends never inventing names with double leading and trailing underscores like __classiter__. –  martineau May 30 '12 at 11:49
1  
@glglgl: Nice answer! –  martineau May 30 '12 at 11:59

Magic methods are always looked up on the class, so adding __iter__ to the class won't make it iterable. However the class is an instance of its metaclass, so that is the correct place to define the __init__ method.

class FooMeta(type):
    def __iter__(self):
        return self.by_id.iteritems()

class Foo:
    __metaclass__ = FooMeta
    ...
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