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I'm new to Python and am trying to understand its approach to variable scope. In this example, why is f() able to alter the value of x, as perceived within main(), but not the value of n?

def f(n, x):
    n = 2
    x.append(4)
    print 'In f():', n, x

def main():
    n = 1
    x = [0,1,2,3]
    print 'Before:', n, x
    f(n, x)
    print 'After: ', n, x

main()

Output:

Before: 1 [0, 1, 2, 3]
In f(): 2 [0, 1, 2, 3, 4]
After:  1 [0, 1, 2, 3, 4]
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7 Answers 7

up vote 54 down vote accepted

Some answers contain the word "copy" in a context of a function call. I find it confusing.

Python doesn't copy objects you pass during a function call ever.

Function parameters are names. When you call a function Python binds these parameters to whatever objects you pass (via names in a caller scope).

Objects can be mutable (like lists) or immutable (like integers, strings in Python). Mutable object you can change. You can't change a name, you just can bind it to another object.

Your example is not about scopes or namespaces, it is about naming and binding and mutability of an object in Python.

def f(n, x): # these `n`, `x` have nothing to do with `n` and `x` from main()
    n = 2    # put `n` label on `2` balloon
    x.append(4) # call `append` method of whatever object `x` is referring to.
    print 'In f():', n, x
    x = []   # put `x` label on `[]` ballon
    # the above has no effect on the original list 

Here are nice pictures on the difference between variables in other languages and names in Python.

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3  
+1 for great referencing links on top of the nice explanation –  Cawas Apr 14 '10 at 15:41
    
This article helped me to understand the problem better and it suggests a workaround and some advanced uses: Default Parameter Values in Python –  Gfy Jun 5 '11 at 16:48
    
@Gfy, I've seen similar examples before but to me it doesn't describe a real-world situation. If you're modifying something that's passed in it doesn't make sense to give it a default. –  Mark Ransom Aug 15 '12 at 18:16
    
@MarkRansom, I think it does make sense if you want to provide optional output destination as in: def foo(x, l=None): l=l or []; l.append(x**2); return l[-1]. –  Janusz Lenar Aug 31 '12 at 13:03

f doesn't actually alter the value of x (which is always the same reference to an instance of a list). Rather, it alters the contents of this list.

In both cases, a copy is passed to the function. But since x is a reference to a list instance, only the reference is copied, not the contents of the list.

In case you are familiar with C, the following approaches the semantics of the Python code:

void f(int n, int* x) {
    n = 42;
    x[0] = 2;
}

Here, n is an int and x is an int* but both are passed as a copy to the function. Nontheless, the memory pointed to by x is the same at the sides of the caller and the callee.

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2  
"copy" is misleading. Python doesn't have variables like C. All names in Python are references. You can't modify name, you just can bind it to another object, that's all. It only makes sense to talk about mutable and immutable object in Python not they are names. –  J.F. Sebastian Feb 22 '09 at 17:16
    
@J.F. Sebastian: Your statement is misleading at best. It is not useful to think of numbers as being references. –  Pitarou Feb 22 '09 at 17:33
3  
@dysfunctor: numbers are references to immutable objects. If you'd rather think of them some other way, you have a bunch of odd special cases to explain. If you think of them as immutable, there are no special cases. –  S.Lott Feb 22 '09 at 17:37
    
@S.Lott: Regardless of what's going on under the hood, Guido van Rossum put a lot of effort into designing Python so that the programmer can thing of numbers as being just ... numbers. –  Pitarou Feb 22 '09 at 18:00
    
@J.F., the reference is copied. –  habnabit Feb 22 '09 at 18:02

You've got a number of answers already, and I broadly agree with J.F. Sebastian, but you might find this useful as a shortcut:

Any time you see varname =, you're creating a new name binding within the function's scope. Whatever value varname was bound to before is lost within this scope.

Any time you see varname.foo() you're calling a method on varname. The method may alter varname (e.g. list.append). varname (or, rather, the object that varname names) may exist in more than one scope, and since it's the same object, any changes will be visible in all scopes.

[note that the global keyword creates an exception to the first case]

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It´s because a list is a mutable object. You´re not setting x to the value of [0,1,2,3], you´re defining a label to the object [0,1,2,3].

You should declare your function f() like this:

def f(n, x=None):
    if x is None:
        x = []
    ...
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It has nothing to do with mutability. If you would do x = x + [4] instead of x.append(4), you'd see no change in the caller as well although a list is mutable. It has to do with if it is indeed mutated. –  glglgl Aug 20 at 11:50

n is an int (immutable), and a copy is passed to the function, so in the function you are changing the copy.

X is a list (mutable), and a copy of the pointer is passed o the function so x.append(4) changes the contents of the list. However, you you said x = [0,1,2,3,4] in your function, you would not change the contents of x in main().

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1  
Watch the "copy of the pointer" phrasing. Both places get references to the objects. n is a reference to an immutable object; x is a reference to a mutable object. –  S.Lott Feb 22 '09 at 17:38

I will rename variables to reduce confusion. n -> nf or nmain. x -> xf or xmain:

def f(nf, xf):
    nf = 2
    xf.append(4)
    print 'In f():', nf, xf

def main():
    nmain = 1
    xmain = [0,1,2,3]
    print 'Before:', nmain, xmain
    f(nmain, xmain)
    print 'After: ', nmain, xmain

main()

When you call the function f, the Python runtime makes a copy of xmain and assigns it to xf, and similarly assigns a copy of nmain to nf.

In the case of n, the value that is copied is 1.

In the case of x the value that is copied is not the literal list [0, 1, 2, 3]. It is a reference to that list. xf and xmain are pointing at the same list, so when you modify xf you are also modifying xmain.

If, however, you were to write something like:

    xf = ["foo", "bar"]
    xf.append(4)

you would find that xmain has not changed. This is because, in the line xf = ["foo", "bar"] you have change xf to point to a new list. Any changes you make to this new list will have no effects on the list that xmain still points to.

Hope that helps. :-)

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"In the case of n, the value that is copied..." -- This is wrong, there is no copying done here (unless you count references). Instead, python uses 'names' which point to the actual objects. nf and xf point to nmain and xmain, until nf = 2, where the name nf is changed to point to 2. Numbers are immutable, lists are mutable. –  Darthfett Apr 19 '12 at 19:19

Python is a pure pass-by-value language if you think about it the right way. A python variable stores the location of an object in memory. The Python variable does not store the object itself. When you pass a variable to a function, you are passing a copy of the address of the object being pointed to by the variable.

Contrasst these two functions

def foo(x):
    x[0] = 5

def goo(x):
    x = []

Now, when you type into the shell

>>> cow = [3,4,5]
>>> foo(cow)
>>> cow
[5,4,5]

Compare this to goo.

>>> cow = [3,4,5]
>>> goo(cow)
>>> goo
[3,4,5]

In the first case, we pass a copy the address of cow to foo and foo modified the state of the object residing there. The object gets modified.

In the second case you pass a copy of the address of cow to goo. Then goo proceeds to change that copy. Effect: none.

I call this the pink house principle. If you make a copy of your address and tell a painter to paint the house at that address pink, you will wind up with a pink house. If you give the painter a copy of your address and tell him to change it to a new address, the address of your house does not change.

The explanation eliminates a lot of confusion. Python passes the addresses variables store by value.

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A pure pass by pointer value is not very different from a pass by reference if you think about it the right way... –  galinette May 19 at 14:09
    
Look at goo. Were you pure pass by reference, it would have changed its argument. No, Python is not a pure pass-by-reference language. It passes references by value. –  ncmathsadist May 19 at 23:17

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