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def foo():
    testdict = {'A': '1235', 'B': '6458', 'C': 54156}

def dofoo(testdict):
    testdict['A'] = testdict['A'].replace('2', '')

What happened with the reference to the value of the testdict variable when testdict['A'] has been set? Did only that item lost reference to the original value?


Because if I would do:

def foo():
    testdict = {'A': '1235', 'B': '6458', 'C': 54156}

def dofoo(testdict)
    testdict = {'F' : '156', 'G' : '6875'}

Then the reference would be lost. So why not if you set an item of such collection?

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2 Answers 2

up vote 2 down vote accepted

It's important to understand what values you're referring to with a given name, at any given time. Here's what I mean:

def doFoo1(testdict):
    testdict["A"] = "test1" # this changes a value contained in testdict
    print(id(testdict)) # the id

def doFoo2(testdict):
    testdict = {some:"new dict"} # this creates a new dict object
    print(id(testdict)) # prints a different id, since testdict is a new object

def foo():
    mydict = {'A': '1235', 'B': '6458', 'C': 54156}

Here's the output on my system (64-bit Python 3.3 on Windows 7):

>>> foo()

There are five id values printed, three (the first, third and fifth) from foo and one from each of the doFoo functions (the second and fourth). The one from doFoo2 is the only one that isn't the same as the others, because the statement testdict = {some:"new dict"} created a new object that was bound to the testdict name inside that function's namespace. That change isn't reflected back in the foo function, because it's mydict name is still bound to the original object.

This is a part of Python that is different than most other programming languages. Unlike C where a variable name corresponds to a specific location in memory, in Python a name refers to a specific object. If you assign to the name again, that simply rebinds the name to a different object (without affecting the original object at all, though it might be garbage collected if there are no other references to it).

A section of this Code like a Pythonista presentation is very helpful in understand this distinction. I think it's "nametag" metaphor is very good for understanding how name binding works in Python.

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testdict = {'A': '1235', 'B': '6458', 'C': 54156}

def foo(x):
    x['A'] = 0;


print testdict['A']

The output for testdict['A'] is 0.

This is because the dict is passed as a reference into the foo function.

So when you pass testdict to foo, x is not a new dict that is a copy of testdict - it's actually a pointer going to the same testdict. When x['A'] changes, that means testdict['A'] also changes.

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But if I would set testdict = {'just', 'something'} in def dofoo. Then the reference would be lost. So why wouldn't that happen if you set an item of a hashmap (dict)? –  user1933169 Mar 16 '13 at 23:58
Because testdict = {'just', 'something'} is completely reassigning the value of testdict –  Bilal Akil Mar 17 '13 at 0:19

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