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So just to establish, I feel like I understand the difference between copy vs. deepcopy in the copy module and I've used copy.copy and copy.deepcopy before successfully, but this is the first time I've actually gone about overloading the __copy__ and __deepcopy__ methods. I've already Googled around and looked through the built-in Python modules to look for instances of the __copy__ and __deepcopy__ functions (e.g. sets.py, decimal.py, and fractions.py), but I'm still not 100% sure I've got it right.

Here's my scenario:

I have a configuration object that mostly just consists of simple properties (though it will potentially have lists of other non-primitive objects in it). Initially I'm going to instantiate one configuration object with a default set of values. This configuration will be handed off to multiple other objects (to ensure all objects start with the same configuration). Once user interaction starts, however, each object will need to be able to tweak the configurations independently without affecting each other's configurations (which says to me I'll need to make deepcopys of my initial configuration to hand around).

Here's a sample object:

class ChartConfig(object):

    def __init__(self):

        #Drawing properties (Booleans/strings)
        self.antialiased = None
        self.plot_style = None
        self.plot_title = None
        self.autoscale = None

        #X axis properties (strings/ints)
        self.xaxis_title = None
        self.xaxis_tick_rotation = None
        self.xaxis_tick_align = None

        #Y axis properties (strings/ints)
        self.yaxis_title = None
        self.yaxis_tick_rotation = None
        self.yaxis_tick_align = None

        #A list of non-primitive objects
        self.trace_configs = []

    def __copy__(self):

    def __deepcopy__(self, memo):

What is the right way to implement the copy and deepcopy methods on this object to ensure copy.copy and copy.deepcopy give me the proper behavior? I'm currently using Python 2.6.2.

Thanks in advance!

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Does it work? Are there problems? –  Ned Batchelder Sep 30 '09 at 21:33
I thought I was still getting problems with shared references, but it's entirely possible I messed up elsewhere. I'll double check based on @MortenSiebuhr's post when I get a chance and update with the results. –  Brent Nash Sep 30 '09 at 21:44

4 Answers 4

up vote 15 down vote accepted

The recommendations for customizing are at the very end of the docs page:

Classes can use the same interfaces to control copying that they use to control pickling. See the description of module pickle for information on these methods. The copy module does not use the copy_reg registration module.

In order for a class to define its own copy implementation, it can define special methods __copy__() and __deepcopy__(). The former is called to implement the shallow copy operation; no additional arguments are passed. The latter is called to implement the deep copy operation; it is passed one argument, the memo dictionary. If the __deepcopy__() implementation needs to make a deep copy of a component, it should call the deepcopy() function with the component as first argument and the memo dictionary as second argument.

Since you appear not to care about pickling customization, defining __copy__ and __deepcopy__ definitely seems like the right way to go for you.

Specifically, __copy__ (the shallow copy) is pretty easy in your case...:

def __copy__(self):
  newone = type(self)()
  return newone

__deepcopy__ would be similar (accepting a memo arg too) but before the return it would have to call self.foo = deepcopy(self.foo, memo) for any attribute self.foo that needs deep copying (essentially attributes that are containers -- lists, dicts, non-primitive objects which hold other stuff through their __dict__s).

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I think I have heard that it's better to override __getstate__/__setstate__ to implement copying. Or am I confused? –  u0b34a0f6ae Sep 30 '09 at 23:58
@kaizer, they're fine to customize pickling/unpickling as well as copying, but if you don't care about the pickling, it's simpler and more direct to use __copy__/__deepcopy__. –  Alex Martelli Oct 1 '09 at 1:07
That doesn't seem to be a direct translation of copy/deepcopy. Neither copy nor deepcopy call the constructor of the object being copied. Consider this example. class Test1(object): def init__(self): print "%s.%s" % (self.__class.__name__, "init") class Test2(Test1): def __copy__(self): new = type(self)() return new t1 = Test1() copy.copy(t1) t2 = Test2() copy.copy(t2) –  Rob Young Jun 27 '11 at 18:01
Oh, well that was a bit of a fail, looks like you can't put code in comments. Well, it's just showing that with Test1 the constructor only gets called once, while with Test2 it gets called twice. –  Rob Young Jun 27 '11 at 18:03
Why self.foo = deepcopy(self.foo, memo)... ? Don't you really mean newone.foo = ...? –  Alois Mahdal Sep 13 '13 at 13:36

Putting together Alex Martelli's answer and Rob Young's comment you get the following code:

from copy import copy, deepcopy

class A(object):
    def __init__(self):
        print 'init'
        self.v = 10
        self.z = [2,3,4]

    def __copy__(self):
        cls = self.__class__
        result = cls.__new__(cls)
        return result

    def __deepcopy__(self, memo):
        cls = self.__class__
        result = cls.__new__(cls)
        memo[id(self)] = result
        for k, v in self.__dict__.items():
            setattr(result, k, deepcopy(v, memo))
        return result

a = A()
a.v = 11
b1, b2 = copy(a), deepcopy(a)
a.v = 12
print b1.v, b1.z
print b2.v, b2.z


11 [2, 3, 4, 5]
11 [2, 3, 4]

here __deepcopy__ fills in the memo dict to avoid excess copying in case the object itself is referenced from its member.

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thanks for the answer, the docs are really lacking on this point! is there a reason you from copy import deepcopy both at the top of the file and inside the __deepcopy__ method? –  Anentropic Jul 1 '13 at 14:08
Thanks, fixed . –  Antony Hatchkins Jul 2 '13 at 4:15

I might be a bit of on the specifics, but here goes;

From the copy docs;

  • A shallow copy constructs a new compound object and then (to the extent possible) inserts references into it to the objects found in the original.
  • A deep copy constructs a new compound object and then, recursively, inserts copies into it of the objects found in the original.

In other words: copy() will copy only the top element and leave the rest as pointers into the original structure. deepcopy() will recursively copy over everything.

Alas, deepcopy() is what you need.

If you need to do something really specific, you can override __copy__() or __deepcopy__(), as described in the manual. Personally, I'd probably implement a plain function (e.g. config.copy_config() or such) to make it plain that it isn't Python standard behaviour.

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In order for a class to define its own copy implementation, it can define special methods __copy__() and __deepcopy__(). docs.python.org/library/copy.html –  SilentGhost Sep 30 '09 at 21:42
I'll double-check my code, thanks. I'm going to feel dumb if this was a simple bug elsewhere :-P –  Brent Nash Sep 30 '09 at 21:45
@MortenSiebuhr You are correct. I wasn't entirely clear that copy/deepcopy would do anything by default without me overriding those functions. I was looking for actual code though that I can tweak later (e.g. if I don't want to copy all attributes), so I gave you an up-vote but I'm going to go with @AlexMartinelli's answer. Thanks! –  Brent Nash Oct 1 '09 at 1:23
Ah! self.RTFM()... I've fixed the response to show match. –  Morten Siebuhr Oct 1 '09 at 8:40

Its not clear from your problem why you need to override these methods, since you don't want to do any customization to the copying methods.

Anyhow, if you do want to customize the deep copy (e.g. by sharing some attributes and copying others), here is a solution:

from copy import deepcopy

def deepcopy_with_sharing(obj, shared_attribute_names, memo=None):
    Deepcopy an object, except for a given list of attributes, which should 
    be shared between the original object and its copy.

    obj is some object
    shared_attribute_names: A list of strings identifying the attributes that
        should be shared between the original and its copy.
    memo is the dictionary passed into __deepcopy__.  Ignore this argument if 
        not calling from within __deepcopy__.
    assert isinstance(shared_attribute_names, (list, tuple))
    shared_attributes = {k: getattr(obj, k) for k in shared_attribute_names}

    if hasattr(obj, '__deepcopy__'):
        # Do hack to prevent infinite recursion in call to deepcopy
        deepcopy_method = obj.__deepcopy__
        obj.__deepcopy__ = None

    for attr in shared_attribute_names:
        del obj.__dict__[attr]

    clone = deepcopy(obj, memo)

    for attr, val in shared_attributes.iteritems():
        setattr(obj, attr, val)
        setattr(clone, attr, val)

    if hasattr(obj, '__deepcopy__'):
        # Undo hack
        obj.__deepcopy__ = deepcopy_method

    return clone

class A(object):

    def __init__(self):
        self.copy_me = []
        self.share_me = []

    def __deepcopy__(self, memo):
        return deepcopy_with_sharing(self, shared_attribute_names = ['share_me'], memo=memo)

a = A()
b = deepcopy(a)

assert a.copy_me is not b.copy_me
assert a.share_me is b.share_me
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