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On p.35 of "Python Essential Reference" by David Beazley, he first states:

For immutable data such as strings, the interpreter aggressively shares objects between different parts of the program.

However, later on the same page, he states

For immutable objects such as numbers and strings, this assignment effectively creates a copy.

But isn't this a contradiction? On one hand he is saying that they are shared, but then he says they are copied.

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An assignment in python never ever creates a copy (it is technically possible only if the assignment for a class member is redefined for example by using __setattr__, properties or descriptors).

So after

a = foo()
b = a

whatever was returned from foo has not been copied, and instead you have two variables a and b pointing to the same object. No matter if the object is immutable or not.

With immutable objects however it's hard to tell if this is the case (because you cannot mutate the object using one variable and check if the change is visible using the other) so you are free to think that indeed a and b cannot influence each other.

For some immutable objects also Python is free to reuse old objects instead of creating new ones and after

a = x + y
b = x + y

where both x and y are numbers (so the sum is a number and is immutable) may be that both a and b will be pointing to the same object. Note that there is no such a guarantee... it may also be that instead they will be pointing to different objects with the same value.

The important thing to remember is that Python never ever makes a copy unless specifically instructed to using e.g. copy or deepcopy. This is very important with mutable objects to avoid surprises.

One common idiom you can see is for example:

class Polygon:
    def __init__(self, pts):
        self.pts = pts[:]

In this case self.pts = pts[:] is used instead of self.pts = pts to make a copy of the whole array of points to be sure that the point list will not change unexpectedly if after creating the object changes are applied to the list that was passed to the constructor.

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I like this answer (+1) – mgilson Jul 20 '12 at 20:04

It effectively creates a copy. It doesn't actually create a copy. The main difference between having two copies and having two names share the same value is that, in the latter case, modifications via one name affect the value of the other name. If the value can't be mutated, this difference disappears, so for immutable objects there is little practical consequence to whether the value is copied or not.

There are some corner cases where you can tell the difference between copies and different objects even for immutable types (e.g., by using the id function or the is operator), but these are not useful for Python builtin immutable types (like strings and numbers).

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There is a whole lot of practical consequence to this. Consider the commonly used if variable is None idiom (None is a builtin immutable python object and it matters if the object is None or just looks like None). You could in principle do the same thing with a string that is set aside as special. – mgilson Jul 20 '12 at 20:06
There is actually very little practical consequence to using if x is None versus if x == None. They will only differ in strange corner cases (e.g., where x is an object that defines a strange __eq__ test). There is even less practical need for using is on strings and numbers. Relying on is for special "set-aside" strings/ints is not recommended because this "setting aside" is implementation-dependent. – BrenBarn Jul 20 '12 at 20:08
Consider the common case where you use if x is None: to check if you recieved a keyword argument. What if you want to accept None as a value? You can do SENTINAL=''; def foo(arg=SENTINAL); if(arg is SENTINAL): arg=[] for example. This is not implementation dependent. – mgilson Jul 20 '12 at 20:12
Yes it is. Try it with func('') and func(sentinel). – BrenBarn Jul 20 '12 at 20:16
Wow -- You're right. Super interesting. I knew the intepreter cached small integers, but I had no idea that it would reuse strings like that. (I'm actually a little disappointed ;^). I still stand by there being a difference between a is None and a == None (because you never know what people are going to do in __eq__, but apparently that distinction is a little blurred for non-singleton immutable types. Weird. Thanks for pointing that out. – mgilson Jul 20 '12 at 20:26

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