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Variables in python are just pointers, as far as I know.
Based on this rule, I can assume that the result for this code snippet:

print i

would be 3. But I got an unexpected result for me, it was 5.

Moreover, my python book does cover this example:

print j

the result would be [5,2,3].

What am I understanding wrong?

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possible duplicate of Python: How do I pass a variable by reference? –  Martijn Pieters Nov 23 '12 at 14:25
This is a really important Python concept to understand. Keep asking questions until you "get it" –  gnibbler Nov 23 '12 at 14:35
While it's probably not the useful model, you can think of names ("variables") as pointers. You just have to do it properly: = always replaces a pointer (either in the local scope, or in an object), it never changes the value of the object previously pointed to. To illustrate, here are your examples in pseudo-C++: PyObj *i = new IntBox(5); PyObj *j = i; j = new IntBox(5); print(i) and PyObj *i = new ListBox(); i->append(new IntBox(1)); i->append(new IntBox(2)); i->append(new IntBox(3)); PyObj *j = i; i->setItem(new IntBox(0), new IntBox(5)); print(j); ... –  delnan Nov 23 '12 at 14:38
... where setItem mutates the list object (specifically, it changes which object the pointer at index 0 points at), and this change is (obviously) then visible through any pointer to it. –  delnan Nov 23 '12 at 14:41
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5 Answers 5

up vote 12 down vote accepted

We call them references. They work like this

i = 5     # create int(5) instance, bind it to i
j = i     # bind j to the same int as i
j = 3     # create int(3) instance, bind it to j
print i   # i still bound to the int(5), j bound to the int(3)

Small ints are interned, but that isn't important to this explanation

i = [1,2,3]   # create the list instance, and bind it to i
j = i         # bind j to the same list as i
i[0] = 5      # change the first item of i
print j       # j is still bound to the same list as i
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Would it be different if you said ++j instead of j = 3? –  Kerrek SB Nov 23 '12 at 14:31
++j has no effect in Python. –  Mark Byers Nov 23 '12 at 14:32
@MarkByers: Oh OK. Is there any mutating operation you can perform on an integer? –  Kerrek SB Nov 23 '12 at 14:33
@KerrekSB. you would have to say j+=1, but ints are immutable, so a new instance must be created and j is rebound to that. i is still bound to the original one –  gnibbler Nov 23 '12 at 14:33
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Variables are not pointers. When you assign to a variable you are binding the name to an object. From that point onwards you can refer to the object by using the name, until that name is rebound.

In your first example the name i is bound to the value 5. Binding different values to the name j does not have any effect on i, so when you later print the value of i the value is still 5.

In your second example you bind both i and j to the same list object. When you modify the contents of the list, you can see the change regardless of which name you use to refer to the list.

Note that it would be incorrect if you said "both lists have changed". There is only one list but it has two names (i and j) that refer to it.

Related documentation

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I think that your statement "In your first example the name i is bound to the value 3" is wrong, as I see that he bounded i to the value 5. You need to modify the statement. –  gg.kaspersky Nov 23 '12 at 14:35
@gg.kaspersky: Umm, yes you are right. Fixed, thanks. –  Mark Byers Nov 23 '12 at 14:37
I suggest to take a look to this tutorial to understand better what is going on: pythontutor.com/visualize.html#mode=display –  EnricoGiampieri Nov 23 '12 at 15:16
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When you set j=3 the label j no longer applies (points) to i, it starts to point to the integer 3. The name i is still referring to the value you set originally, 5.

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They are not quite pointers, they are references to objects. Objects can be either mutable, or immutable. An immutable object is copied when it is modified. A mutable object is altered in-place. An integer is an immutable object, that you reference by your i and j variables. A list is a mutable object.

In your first example

# The label i now references 5
# The label j now references what i references
# The label j now references 3
print i
# i still references 5

In your second example:

# i references a list object (a mutable object)
# j now references the same object as i (they reference the same mutable object)
# sets first element of references object to 5
print j
# prints the list object that j references. It's the same one as i.
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Assignment doesn't modify objects; all it does is change where the variable points. Changing where one variable points won't change where another one points.

You are probably thinking of the fact that arrays and dictionaries are mutable types. There are operators to modify the actual objects in-place, and if you use one of those, you will see the change in all variables pointing to the same object:

x = []
y = x
# x and y both are now [1]

But assignment still just moves the pointer around:

x = [2]
# x is now [2], y is still [1]

Numbers are value types, which means the actual values are immutable. If you do x=3; x += 2, you aren't turning the number 3 into the number 5; you're just making x point to 5 instead of 3. The 3 is still out there unchanged, and any variables pointing to it will still see 3 as their value.

(In the actual implementation, numbers are probably not reference types and the variables actually contain a representation of the value directly rather than pointing to it, but that distinction doesn't change the semantics where value types are concerned.)

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That's not what value type means. Value type means precisely what you described in the last paragraph (that the value is passed/copied around instead of a reference to the object), and it's not like that internally (in CPython, and in PyPy sans JIT compiler - every integer is a heap-allocated object). Just stick to immutable, that's precisely the word you need there. –  delnan Nov 23 '12 at 14:55
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