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Found this strange in python:

class SomeClass():
    def __init__(self):
        pass

a = [SomeClass()]
b = copy.deepcopy(a)

Output:

>>> a
[<__main__.Some instance at 0x10051b1b8>]
>>> b
[<__main__.Some instance at 0x10051b092>]

This is just as expected- deepcopy created new SomeClass() object for b.

But if,

f = lambda x:x+1
a = [f]
b = copy.deepcopy(a)

I get:

>>> a
[<function <lambda> at 0x10056e410>]
>>> b
[<function <lambda> at 0x10056e410>]

Why deepcopy doesnt create a new lambda instance in the second case? does that mean lambda functions are atomic?

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3  
I don't think lambdas are mutable, so there shouldn't be any reason to make copies... –  rid May 29 '12 at 15:20
    
Thats what I currently assume.. –  jerrymouse May 29 '12 at 15:23
3  
@Radu Function objects are mutable. Try func.my_outlandish_attr = func, no matter if func is named or anoynmous. Or even more feindishly, func.co_code = other_func.co_code (__code__ in Python 3; does not work with builtins) which actually changes the code of the function! –  delnan May 29 '12 at 16:30
    
paging Alex Martelli, please share thoughts on this .. –  jerrymouse May 29 '12 at 18:32
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4 Answers

Looking at lines 222 and 223 from the source code:

d[types.BuiltinFunctionType] = _deepcopy_atomic
d[types.FunctionType] = _deepcopy_atomic

The module considers them atomic, and I don't know how you can mutate a lambda.

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2  
Again, functions (including lambdas; those even have the same type!) are mutable. See the answer by Noctis Skytower. –  delnan May 29 '12 at 16:32
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This applies not just to lambdas, but to functions without state more generally.

>>> def some_function(word): print word
>>> a = [some_function]
>>> a
[<function some_function at 0x1007026e0>]
>>> copy.deepcopy(a)
[<function some_function at 0x1007026e0>]

Because the functions do not store state, deepcopy does not create a new reference for them. An interesting discussion of topics similar to this issue (though not exactly the same issue) is recorded here: http://bugs.python.org/issue1515

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2  
Again, functions (including lambdas; those even have the same type!) are mutable. See the answer by Noctis Skytower. –  delnan May 29 '12 at 16:31
    
Edited accordingly :) Thanks. –  Karmel May 29 '12 at 16:42
    
They do have state. Even immutable objects have state, but beside that, some attributes such as __code__ and __doc__ are also writable. What do you mean by "do not store state"? –  delnan May 29 '12 at 16:45
    
OK, I guess more specificity is in order. How do you feel about store instance state, or state we would care about changing within the general use-case of deepcopy, as opposed to a singleton or global state that is more rarely changed from call-to-call of a given function. –  Karmel May 29 '12 at 17:24
1  
Mutable perhaps, but not (by convention) mutated. From Guido vR in the thread linked above, "A (bound) method contains an instance which definitely represents state and calling the method can easily mutate that state. This is different from classes (which could contain state) or modules (which almost certainly contain state) or functions (which could mutate global state) -- in all those cases, we're talking about singleton state, for which it makes sense not to create a clone." –  Karmel May 29 '12 at 18:03
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As a side note to some people thinking that lambdas are not mutable, observe the following behavior:

>>> a = lambda x: x + 1
>>> a(12)
13
>>> b = lambda x: x - 1
>>> b(12)
11
>>> a.__code__ = b.__code__
>>> a(12)
11
>>> 
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1  
+1 Though it's no answer. Thank you for pointing it out, with a great example too. Note that it's co_code in Python 2 and only works for user-defined functions. Even more aside, you can engineer your own code objects, without writing out a function - you may even crash the interpreter that way if you construct invalid code. –  delnan May 29 '12 at 16:33
    
Sorry, typo: It's func_code in Python 2. co_code is an attribute of the code object which stores the raw bytes which form the bytecode, and keeps that name in Python 3. –  delnan May 29 '12 at 16:40
    
This doesn't answers the question !! –  Yugal Jindle Oct 8 '12 at 18:48
    
@YugalJindle: This may not answer the question, but it should clear up confusion caused by other answers. delnan references this answer twice to correct some misleading statements. –  Noctis Skytower Oct 9 '12 at 16:54
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I don't know the complete history of Python, but it's possible that functions used to be as immutable as strings and tuples, and so that originally it was perfectly reasonable for deepcopy to behave as it does.

Also, in practice, most people are more concerned that their data objects are being copied than their functions. The necessity for deepcopy to make a copy of functions is a clear edge case, and expecting people subject to that edge case to roll their own solution seems perfectly fine to me.

A reasonable approach would be to write a decorator @copyablefunc that wraps the function in a callable object (i.e. a class that has a __call__() method) and that also defines __copy__() and __deepcopy__() methods to be used by the deepcopy routine.

copy.deepcopy also doesn't truly copy classes, just by the way.

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