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It seems like doing from foo import i makes a copy of i rather than importing i into the current namespace. Is that possible?




import foo
from foo import i

foo.i = 999

print i
print foo.i

This prints:


but I expected it them both to be 999 (just aliases for the same memory as it were). What am I missing?

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i and foo.i refer to the same object... but assigning to foo.i makes foo.i refer somewhere else, rather than going into the integer object and screwing with its value. –  user2357112 Jan 27 '14 at 20:40

1 Answer 1

up vote 5 down vote accepted

just aliases for the same memory as it were

You misunderstood how "variables" work in python. Variables are not memory locations. They are just names attached to objects. When you perform the assignment:

i = 0

you are giving the name i to a new object 0 in the current scope.

You should read the documentation about naming and binding

Maybe a diagram can make this clearer:

Situations before modifying i:

foo.i       i
  |        /
  |       /
  |      /
  |     /
  |    /
  |   /
  |  /
| 999 |

The object 999 has two references. When you do:

i = 0

This is what happens:

foo.i         i
  |           |
  |           |
  |           |
  |           |
  |           |
  |           |
  |           |
+-----+     +---+
| 999 |     | 0 |
+-----+     +---+

If you want to modify the value of the 999 object... well: you can't because in python integers are immutable.

Note that it doesn't have to do with scopes:

i = 999
j = i
i = 0
print(i, j)  # prints: 0 999

The names i and j are just labels to objects. If you come from C you may think of every python variable as a pointer to the actual object. As if the above code was:

int *i = &999;
int *j = i;
i = &0;
printf("%d %d", *i, *j);
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I do come from C, you're right. I assumed that before modifying i, foo.i and i essentially point to the same memory (which they do I think). But even if I write a setter in the foo module it doesn't work -- and not in the way I'd expect. If I have a setter def set_i(ii): global i; i=ii in foo, and call that (from anywhere), I'd expect both foo.i and i to change in bar, or else neither of them. But in fact foo.i changes and i doesn't. It's like the name foo.i is changed to point to the new value, but the name i (which is imported from foo) doesn't change. –  GaryO Jan 27 '14 at 20:45
@GaryO That's the symmetric case. The fact that i is imported from foo does not create any relationship between the value of foo.i and i. In the case of using set_i you have: int *i=&999; int *j=i; i = ii; If you run this code in C you will see that j still points to 999. It's perfectly symmetric. You just cannot perform an assignment in a scope and make it affect other existing scopes. –  Bakuriu Jan 27 '14 at 20:49
I guess this is what throws me: "The fact that i is imported from foo does not create any relationship between the value of foo.i and i." I expected (incorrectly) that from foo import i would make i another way of spelling foo.i. (Of course I see that if I made the value of foo.i a mutable type this would all work as I want. I could just change the value in the container.) Thanks for the interesting lesson! –  GaryO Jan 27 '14 at 20:54
And of course, a workaround for this is modifying a mutable object; e.g. use a dict and change its contents. But sharing variables in this way is usually a sign of bad design in python, so think twice if you really need this! –  l4mpi Jan 27 '14 at 20:55
@GaryO "The fact that i is imported from foo does not create any relationship between the value of foo.i and i." actually, it does. foo.i and i both reference the same object (of type "int" with the value 999). It is just that by assigning i a new value, you break the reference because what you consider a scalar value is in fact a new object of type int with value 0. So foo.i and i end up pointing to different objects. –  miraculixx Jan 27 '14 at 21:00

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