Python scoping mutable vs immutable

First I'm going to start like everyone else. I'm new to python. My teacher gave me the problem:

``````def f(a, b, c):
a    = 1
c    = b
c[0] = 2
a = 10
b = [11, 12, 13]
c = [13, 14, 15]
f(a, b, c)
print a, b, c
``````

It prints:

``````10 [2, 12, 13] [13, 14, 15]
``````

I understand that a stays at 10 because integers are immutable, but I don't understand why b changes and c doesn't.

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I'd also point out that this doesn't have to do with the data types being mutable/immutable. As the answers below point out, this is about variable assignment. The data model page discusses that difference. –  Rob Dec 6 '11 at 21:36
what is confusing you is just the variable names, I guess. give the ones outside the function different names i.e. x,y,z;so you wanna call f(x,y,z), and print x,y,z. And i am sure it won't be that hard to see. –  Danny Dec 6 '11 at 23:16

``````c    = b
c[0] = 2
``````

Since you're setting `c` to point to `b`, You could just as easily do this:

``````def f(a, b, unused): # notice c isn't in the parameter list
a = 1
c = b # c is declared here
c[0] = 2 # c points to b, so c[0] is b[0]
``````

Now it's obvious that `c` is always the same as `b`, so why not just remove it:

``````def f(a, b, unused):
a = 1
b[0] = 2
``````

And now it's clear that you're changing the first element of `b` and not doing anything to `c`, and remember, this is functionally identical to the original.

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The key is to understand the variables as pointers under the hood:

``````def f(a, b, c):
a    = 1 # a is a single scalar value, so no pointing involved
c    = b # point the local "c" pointer to point to "b"
c[0] = 2 # change the 2nd value in the list pointed to by "c" to 2
``````

When you call f(a,b,c), only b actually gets changed. The "c" variable inside the function implementation is different from the "c" implementation outside the function.

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`a` does not retain the value of 10 because it is immutable. It retains the value of 10 because when you call `a = 1` in the local scope of `f()` you create a new variable.
When you call `c = b` inside `f()`, the local `c` becomes a local reference to the mutable object represented by `b`. When you re-assign the values in that mutable object the change is reflected in the original object.