15

I have a big class with lots of members, and quite a few references to instances of this class lying around. Unfortunately (for reasonable reasons) all these references are the wrong way around.

Instead of re-creating each (and finding and updating everywhere the objects are referenced), or adding an extra level of indirection each time I access this class, or individually swapping members, I have defined a method:

def swap(self, other):
    assert(isinstance(other, self.__class__))
    self.__dict__, other.__dict__ = other.__dict__, self.__dict__

so I can do:

instance_a.swap(instance_b)
# now all references to instance_a everywhere are as if instance_a is instance_b

The question: It seems to work fine (I don't use __slots__), but it feels like there might be a reason I shouldn't do this, is there?


Here's my actual use case:

I have a type that implements comparison operators in a (necessarily) expensive way. I have various sorted data-structures containing objects of this type.

When I do something to one of the objects, I know that the comparison order has changed, and that order in my data structures (all of them!) can be restored by swapping the modified object with the 'next bigger' one.

14
  • 4
    Pythonic way of swapping variables: self.__dict__, other.__dict__ = other.__dict__, self.__dict__.
    – utdemir
    Aug 31, 2011 at 10:42
  • 5
    This seems to be bound to create headaches and subtle bugs.
    – user395760
    Aug 31, 2011 at 10:43
  • 3
    You are using the term "class" when you really mean "object" or "instance". Aug 31, 2011 at 10:43
  • 16
    You can do it, but one can only wonder how you have gotten into this mess Aug 31, 2011 at 10:46
  • I would set up a macro instead to swap all the names round. You'll save yourself ( and those who follow you ) many many headaches.
    – Ben
    Aug 31, 2011 at 11:21

4 Answers 4

9

Edit

What you're doing is possible, although it will make people cringe because it is hackish. If at all possible, I would suggest that you look at rewriting/refactoring your comparison operators. That will give you the best outcome by far. Of course, not knowing the scope or time-frame involved, it is very difficult to tell whether this is immediately practical, but trust me, you will spend less time re-writing in the long term if you can do things "right".

Original

Realistically, it sounds like you're dealing with three classes -- a data object and two utility classes -- but that is another issue.

This will break, so I am going to go ahead and say, "no, you cannot swap classes by swapping __dict__s":

>>> class Foo:
...    def __init__(self):
...        self.__bar = 1
...    def printBar(self):
...        print self.__bar
... 
>>> class Bar:
...    def __init__(self):
...        self.__bar=2
...    def printBar(self):
...        print self.__bar
... 
>>> f=Foo()
>>> f.printBar() # works as expected
1
>>> f=Foo()
>>> b=Bar()
>>> f.__dict__, b.__dict__ = b.__dict__, f.__dict__
>>> f.printBar() # attempts to access private value from another class
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
  File "<stdin>", line 5, in printBar
AttributeError: Foo instance has no attribute '_Foo__bar'
3
  • Sorry, my wording was pretty poor re: classes vs. objects. I only have one type, and two instances of the same type. I've updated the wording in the question to try to be more precise!
    – James
    Aug 31, 2011 at 14:50
  • I've also added a use-case to try to clarify why I want to do this.
    – James
    Aug 31, 2011 at 14:57
  • Also, identity will be broken. Sep 6, 2011 at 14:06
7
+100

If I understand correctly, you are actually swapping instances of a class, not classes.

Instance state is kept in two possible places: __slots__ and __dict__. If you swap those, you've basically swapped instances while retaining the original name bindings. One caveat is that the class cannot be immutable (must not define __hash__()) as any instances that were already members of a set or keys in a dictionary would then become irretrievable.

If it were me, I think I would have the .swap() method be a class method instead -- I think it would read easier:

class SomeBigClass():
    @staticmethod
    def swap_dict(instance_a, instance_b):
        instance_a.__dict__, instance_b.__dict__ = \
                instance_b.__dict__, instance_a.__dict__
    @classmethod
    def swap_slot(cls, instance_a, instance_b):
        values = []
        for attr in cls.__slots__:
            values.append(
                (attr,
                 getattr(instance_a, attr),
                 getattr(instance_b, attr),
                 ))
        for attr, val1, val2 in values:
            setattr(instance_a, attr, val2)
            setattr(instance_b, attr, val1)

and then later

SomeBigClass.swap_dict(this_instance, other_instance)

or

SomeBigClass.swap_slot(this_instance, other_instance)

Why shouldn't you do this? If you have instances bound to names you should not do this. Consider:

frubbah = SomeBigClass(attr="Hi, Mom!")
zikroid = SomeBigClass(attr='Hi, Dad!")
SomeBigClass.swap_dict(frubbah, zikroid)

After the swap, potentially everything you thought you knew about zikroid has changed.

3
  • 1
    Note that __slots__ is merely the class-wide list of attributes that are supported on that class's instances; each instances does not get its own __slots__ that could be swapped with that of another instance. Nor would it help, since __slots__ is just the variable names — like ['a','b'] — and does not include the actual values. But, as your answer notes, you can do tricks with __dict__ because it is per-instance and not per-class. Sep 22, 2011 at 7:55
  • 1
    @Brandon: Very good point, thank you. Updated code to show how to handle __slots__. Sep 22, 2011 at 18:38
  • How would you do it to swap to objects, instances of different classes?
    – Hernan
    Jun 2, 2013 at 2:07
1

This swapping should be implemented in your sorted data structures, not in this class for its instances.

1
  • The datastructure doesn't know when I modify one of the items though, so at best I'd have to remove, and re-insert with a position hint. Since comparison is very expensive, and I know exactly what needs changing already, I think it's best if I do it behind the sorted datastructure's back.
    – James
    Sep 6, 2011 at 19:37
0

For your own sanity, and that of whoever may use your code after you, if you decide to use this function, you should document the hell out of it so that you know what's going on. Your more self-documenting alternative, of course, is to write a function that swaps all the data members individually. Obviously this isn't very future-proof if your data model will be changing, but it will be less confusing. If it's not something you want to write out by hand, you could define a function to swap one data field, and run it over all your class attributes:

def swap (a, b):
  for key in a.__dict__.keys():
    swapOneField(key, a, b)

and for swapOneField get the values from a.__dict__ and b.__dict__ and use the swapping algorithm of your choice. It's more verbose, and probably less efficient, but if you save more time in not debugging it than you lose in running it, it's probably worth your time.

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