# Why doesn't this assign a copy

I have the following code and I'm wondering why it returns the same list instead of a copy:

``````x = [2,1,3]
y = x
y.sort()
print y
print x
``````

Why does this return the same sorted list?

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"why it returns the same list"? Because that's the rule for `=`. I'm unclear on what you're asking? Are you asking for the Python definition of `=`? –  S.Lott Aug 1 '11 at 21:46

Because it's modified in-place.

Python lists have reference semantics, meaning that when you assign a list to another variable, they're actually pointing at the same list.

If you want to make a copy, do this:

``````x = [2,1,3]
y = x[:]
y.sort()
print y
print x
``````

The slice notation does cause the list (in this case, the entire list, though you can make a small modification to ask for a particular sublist) to be copied.

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Everything in Python has reference semantics unless you go out of your way to fake value semantics. –  Karl Knechtel Aug 1 '11 at 21:47
Hmm...you are correct. Numbers just appear to have value semantics because they are immutable. Alright, I'll remove the offending sentence. –  Jeremy Roman Aug 1 '11 at 21:49
Numbers only appear to have value semantics; when you say `a=a+b`, you're creating a new number that is the sum and reassigning the name `a` to that sum. The old contents of `a` are still in memory, waiting to be garbage collected. –  Mark Ransom Aug 1 '11 at 21:50
Mark: Yes, this is what I was referring to in my comment just above yours. As I said, corrected. –  Jeremy Roman Aug 1 '11 at 21:50
wait, so what is happening when you say `x=1 \n y=x \n x=2` ? –  locoboy Aug 1 '11 at 21:54

You are dealing with references in Python. The statement `y = x` makes `y` point to the same thing as `x`, so changes to `y` are reflected in `x` (because they point to the same underlying list).

You can change a copy by doing:

``````y = list(x) # make a copy of the list so we can change y without disturbing x
y.sort()
``````

or

``````y = sorted(x) # return a new sorted copy of what is in x
``````
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+1 for mentioning the function that directly gives the OP what is desired. –  Karl Knechtel Aug 1 '11 at 21:53
+1 from me too, but that's really a specialized answer to a specialized question. The more general answers are useful as well. –  Mark Ransom Aug 1 '11 at 22:43

x is the name of ("reference to") the list (object). The line

``````y=x
``````

merely makes y another name for the same list. If you want to copy the list, use one of

``````y = x[:]
y = list(x)
``````

(The first syntax is just an ordinary list slice, but with both the start and the end values left out, meaning that it takes the entire list.)

Note that a list is a list of objects, and copying the list will not copy the objects. If you want that behaviour — a deep copy — you must do so explicitly with

``````import copy
y = copy.deepcopy(x)
``````

Naturally, this will be slower.

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I prefer `list(x)`; explicit is better than implicit, and the `[:]` trick doesn't generalize nearly as well. –  Karl Knechtel Aug 1 '11 at 21:52
@Karl: `[:]` is explicit, just less obvious to someone not well versed in the idioms of the language. –  nmichaels Aug 1 '11 at 22:02

Because you only copy the reference.

For instruction on how to clone the list ('deep copy'),see: How to clone a list in python?

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When you say `y = x`, you're really just assigning another name (y) to the contents of x. If x is a mutable value and you do something to change it, you change the one-and-only copy that has 2 different names.

A common way to prevent this is to assign to a slice, which is always a copy of the original list.

``````y = x[:]
``````
-

Assigning a list to another variable in Python creates a reference, so any changes you make to the reference will show up in the original. If you want a copy that will not alter the original, do this:

``````y = x[:]
``````
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-1: `x[:]` is a shallow copy. `copy.deep copy` is a deep copy. –  katrielalex Aug 1 '11 at 21:52