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The Python documentation seems unclear about whether parameters are passed by reference or value, and the following code produces the unchanged value 'Original'

class PassByReference:
    def __init__(self):
        self.variable = 'Original'
        print self.variable

    def Change(self, var):
        var = 'Changed'

Is there something I can do to pass the variable by actual reference?

share|improve this question
For a short explanation/clarification see the first answer to this stackoverflow question. As strings are immutable, they won't be changed and a new variable will be created, thus the "outer" variable still has the same value. – PhilS Jun 12 '09 at 10:35
The code in BlairConrad's answer is good, but the explanation provided by DavidCournapeau and DarenThomas is correct. – Ethan Furman Jan 7 '12 at 6:47
Before reading the selected answer, please consider reading this short text Other languages have "variables", Python has "names". Think about "names" and "objects" instead of "variables" and "references" and you should avoid a lot of similar problems. – lqc Nov 15 '12 at 0:39
Why does this needlessly use a class? This isn't Java :P – Peter R Oct 22 '14 at 19:19
another workaround is to create a wrapper 'reference' like this: ref = type('', (), {'n':1}) – robert Nov 6 '14 at 12:01

16 Answers 16

up vote 1296 down vote accepted

Arguments are passed by assignment. The rationale behind this is twofold:

  1. the parameter passed in is actually a reference to an object (but the reference is passed by value)
  2. some data types are mutable, but others aren't


  • If you pass a mutable object into a method, the method gets a reference to that same object and you can mutate it to your heart's delight, but if you rebind the reference in the method, the outer scope will know nothing about it, and after you're done, the outer reference will still point at the original object.

  • If you pass an immutable object to a method, you still can't rebind the outer reference, and you can't even mutate the object.

To make it even more clear, let's have some examples.

List - a mutable type

Let's try to modify the list that was passed to a method:

def try_to_change_list_contents(the_list):
    print 'got', the_list
    print 'changed to', the_list

outer_list = ['one', 'two', 'three']

print 'before, outer_list =', outer_list
print 'after, outer_list =', outer_list


before, outer_list = ['one', 'two', 'three']
got ['one', 'two', 'three']
changed to ['one', 'two', 'three', 'four']
after, outer_list = ['one', 'two', 'three', 'four']

Since the parameter passed in is a reference to outer_list, not a copy of it, we can use the mutating list methods to change it and have the changes reflected in the outer scope.

Now let's see what happens when we try to change the reference that was passed in as a parameter:

def try_to_change_list_reference(the_list):
    print 'got', the_list
    the_list = ['and', 'we', 'can', 'not', 'lie']
    print 'set to', the_list

outer_list = ['we', 'like', 'proper', 'English']

print 'before, outer_list =', outer_list
print 'after, outer_list =', outer_list


before, outer_list = ['we', 'like', 'proper', 'English']
got ['we', 'like', 'proper', 'English']
set to ['and', 'we', 'can', 'not', 'lie']
after, outer_list = ['we', 'like', 'proper', 'English']

Since the the_list parameter was passed by value, assigning a new list to it had no effect that the code outside the method could see. The the_list was a copy of the outer_list reference, and we had the_list point to a new list, but there was no way to change where outer_list pointed.

String - an immutable type

It's immutable, so there's nothing we can do to change the contents of the string

Now, let's try to change the reference

def try_to_change_string_reference(the_string):
    print 'got', the_string
    the_string = 'In a kingdom by the sea'
    print 'set to', the_string

outer_string = 'It was many and many a year ago'

print 'before, outer_string =', outer_string
print 'after, outer_string =', outer_string


before, outer_string = It was many and many a year ago
got It was many and many a year ago
set to In a kingdom by the sea
after, outer_string = It was many and many a year ago

Again, since the the_string parameter was passed by value, assigning a new string to it had no effect that the code outside the method could see. The the_string was a copy of the outer_string reference, and we had the_string point to a new string, but there was no way to change where outer_string pointed.

I hope this clears things up a little.

EDIT: It's been noted that this doesn't answer the question that @David originally asked, "Is there something I can do to pass the variable by actual reference?". Let's work on that.

How do we get around this?

As @Andrea's answer shows, you could return the new value. This doesn't change the way things are passed in, but does let you get the information you want back out:

def return_a_whole_new_string(the_string):
    new_string = something_to_do_with_the_old_string(the_string)
    return new_string

# then you could call it like
my_string = return_a_whole_new_string(my_string)

If you really wanted to avoid using a return value, you could create a class to hold your value and pass it into the function or use an existing class, like a list:

def use_a_wrapper_to_simulate_pass_by_reference(stuff_to_change):
    new_string = something_to_do_with_the_old_string(stuff_to_change[0])
    stuff_to_change[0] = new_string

# then you could call it like
wrapper = [my_string]


Although this seems a little cumbersome.

share|improve this answer
Then the same is in C, when you pass "by reference" you're actually passing by value the reference... Define "by reference" :P – Andrea Ambu Jun 12 '09 at 11:52
I'm not sure I understand your terms. I've been out of the C game for a while, but back when I was in it, there was no "pass by reference" - you could pass things, and it was always pass by value, so whatever was in the parameter list was copied. But sometimes the thing was a pointer, which one could follow to the piece of memory (primitive, array, struct, whatever), but you couldn't change the pointer that was copied from the outer scope - when you were done with the function, the original pointer still pointed to the same address. C++ introduced references, which behaved differently. – Blair Conrad Jun 12 '09 at 12:09
@Zac Bowling I don't really get how what you're saying is relevant, in a practical sense, to this answer. If a Python newcomer wanted to know about passing by ref/val, then the takeaway from this answer is: 1- You can use the reference that a function receives as its arguments, to modify the 'outside' value of a variable, as long as you don't reassign the parameter to refer to a new object. 2- Assigning to an immutable type will always create a new object, which breaks the reference that you had to the outside variable. – Cam Jackson Sep 8 '11 at 23:50
@CamJackson, you need a better example - numbers are also immutable objects in Python. Besides, wouldn't it be true to say that any assignment without subscripting on the left side of the equals will reassign the name to a new object whether it is immutable or not? def Foo(alist): alist = [1,2,3] will not modify the contents of the list from the callers perspective. – Mark Ransom Nov 15 '11 at 16:46
-1. The code shown is good, the explanation as to how is completely wrong. See the answers by DavidCournapeau or DarenThomas for correct explanations as to why. – Ethan Furman Jan 7 '12 at 6:41

The problem comes from a misunderstanding of what variables are in Python. If you're used to most traditional languages, you have a mental model of what happens in the following sequence:

a = 1
a = 2

You believe that a is a memory location that stores the value 1, then is updated to store the value 2. That's not how things work in Python. Rather, a starts as a reference to an object with the value 1, then gets reassigned as a reference to an object with the value 2. Those two objects may continue to coexist even though a doesn't refer to the first one anymore; in fact they may be shared by any number of other references within the program.

When you call a function with a parameter, a new reference is created that refers to the object passed in. This is separate from the reference that was used in the function call, so there's no way to update that reference and make it refer to a new object. In your example:

    self.variable = 'Original'

def Change(self, var):
    var = 'Changed'

self.variable is a reference to the string object 'Original'. When you call Change you create a second reference var to the object. Inside the function you reassign the reference var to a different string object 'Changed', but the reference self.variable is separate and does not change.

The only way around this is to pass a mutable object. Because both references refer to the same object, any changes to the object are reflected in both places.

    self.variable = ['Original']

def Change(self, var):
    var[0] = 'Changed'
share|improve this answer
Good succinct explanation. Your paragraph "When you call a function..." is one of the best explanations I've heard of the rather cryptic phrase that 'Python function parameters are references, passed by value.' I think if you understand that paragraph alone, everything else kind of just makes sense and flows as a logical conclusion from there. Then you just have to be aware of when you're creating a new object and when you're modifying an existing one. – Cam Jackson Nov 16 '11 at 0:03
But how can you reassign the reference? I thought you can't change the address of 'var' but that your string "Changed" was now going to be stored in the 'var' memory address. Your description makes it seem like "Changed" and "Original" belong to different places in memory instead and you just switch 'var' to a different address. Is that correct? – Glassjawed May 7 '12 at 1:10
@Glassjawed, I think you're getting it. "Changed" and "Original" are two different string objects at different memory addresses and 'var' changes from pointing to one to pointing to the other. – Mark Ransom May 7 '12 at 1:46
this is the best explanation and should be the accepted answer. Short, concise and clear. Others coin new, confusing terms like 'reference is passed by value', 'call be object', etc. This answer clears everything. Thanks :) – ajay Oct 23 '13 at 12:19
using the id() function helps clarify matters, because it makes it clear when Python creates a new object (so I think, anyway). – Tim Richardson Nov 11 at 10:07

It is neither pass-by-value or pass-by-reference - it is call-by-object. See this, by Fredrik Lundh:

Here is a significant quote:

"...variables [names] are not objects; they cannot be denoted by other variables or referred to by objects."

In your example, when the Change method is called--a namespace is created for it; and var becomes a name, within that namespace, for the string object 'Original'. That object then has a name in two namespaces. Next, var = 'Changed' binds var to a new string object, and thus the method's namespace forgets about 'Original'. Finally, that namespace is forgotten, and the string 'Changed' along with it.

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I find it hard to buy. To me is just as Java, the parameters are pointers to objects in memory, and those pointers are passed via the stack, or registers. – Luciano Dec 13 '11 at 1:25
This is not like java. One of the case where it is not the same is immutable objects. Think about the trivial function lambda x: x. Apply this for x = [1, 2, 3] and x = (1, 2, 3). In the first case, the returned value will be a copy of the input, and identical in the second case. – David Cournapeau Dec 14 '11 at 1:53
No, it's exactly like Java's semantics for objects. I'm not sure what you mean by "In the first case, the returned value will be a copy of the input, and identical in the second case." but that statement seems to be plainly incorrect. – Mike Graham Nov 14 '12 at 20:58
It is exactly the same as in Java. Object references are passed by value. Anyone who thinks differently should attach the Python code for a swap function that can swap two references, like this: a = [42] ; b = 'Hello'; swap(a, b) # Now a is 'Hello', b is [42] – cayhorstmann Dec 20 '12 at 3:42
It is exactly the same as Java when you pass objects in Java. However, Java also have primitives, which are passed by copying the value of the primitive. Thus they differ in that case. – Claudiu Jul 17 '13 at 18:59

Think of stuff being passed by assignment instead of by reference/by value. That way, it is allways clear, what is happening as long as you understand what happens during normal assignment.

So, when passing a list to a function/method, the list is assigned to the parameter name. Appending to the list will result in the list being modified. Reassigning the list inside the function will not change the original list, since:

a = [1, 2, 3]
b = a
b = ['a', 'b']
print a, b      # prints [1, 2, 3, 4] ['a', 'b']

Since immutable types cannot be modified, they seem like being passed by value - passing an int into a function means assigning the int to the functions parameter. You can only ever reassign that, but it won't change the originial variables value.

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I found the other answers long and complicated, so I created this simple diagram to explain the way Python treats variables and parameters. Python pass by object

share|improve this answer
Your diagram elucidates the underlying concept well although I wouldn't call other answers long and complicated. – Bruce Wayne Jun 9 at 17:05
A very elegant explanation. I think the other answers are long and complicated as well. Good job! – kirk.burleson Aug 4 at 13:13
There is an error in the picture. B=A means A is assigned to B. – azalea Aug 20 at 18:39
Good catch, @azalea. I've fixed the error. – Zenadix Aug 20 at 19:35

Technically, Python always uses pass by reference values. I am going to repeat my other answer to support my statement.

Python always uses pass-by-reference values. There isn't any exception. Any variable assignment means copying the reference value. No exception. Any variable is the name bound to the reference value. Always.

You can think about a reference value as the address of the target object. The address is automatically dereferenced when used. This way, working with the reference value, it seems you work directly with the target object. But there always is a reference in between, one step more to jump to the target.

Here is the example that proves that Python uses passing by reference:

Illustrated example of passing the argument

If the argument was passed by value, the outer lst could not be modified. The green are the target objects (the black is the value stored inside, the red is the object type), the yellow is the memory with the reference value inside -- drawn as the arrow. The blue solid arrow is the reference value that was passed to the function (via the dashed blue arrow path). The ugly dark yellow is the internal dictionary. (It actually could be drawn also as a green ellipse. The colour and the shape only says it is internal.)

You can use the id() built-in function to learn what the reference value is (that is, the address of the target object).

In compiled languages, a variable is a memory space that is able to capture the value of the type. In Python, a variable is a name (captured internally as a string) bound to the reference variable that holds the reference value to the target object. The name of the variable is the key in the internal dictionary, the value part of that dictionary item stores the reference value to the target.

Reference values are hidden in Python. There isn't any explicit user type for storing the reference value. However, you can use a list element (or element in any other suitable container type) as the reference variable, because all containers do store the elements also as references to the target objects. In other words, elements are actually not contained inside the container -- only the references to elements are.

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Actually this is confirmed its pass by reference value. +1 for this answer although the example wasnt good. – Geo Papas Oct 4 '12 at 17:03
Inventing new terminology (such as "pass by reference value" or "call by object" is not helpful). "Call by (value|reference|name)" are standard terms. "reference" is a standard term. Passing references by value accurately describes the behavior of Python, Java, and a host of other languages, using standard terminology. – cayhorstmann Dec 20 '12 at 3:54
@cayhorstmann: The problem is that Python variable has not the same terminology meaning as in other languages. This way, call by reference does not fit well here. Also, how do you exactly define the term reference? Informally, the Python way could be easily described as passing the address of the object. But it does not fit with a potentially distributed implementation of Python. – pepr Dec 20 '12 at 8:54
I like this answer, but you might consider if the example is really helping or hurting the flow. Also, if you replaced 'reference value' with 'object reference' you would be using terminology that we could consider 'official', as seen here: Defining Functions – Honest Abe Jan 13 '14 at 22:10
There is a footnote indicated at the end of that quote, which reads: "Actually, call by object reference would be a better description, since if a mutable object is passed, the caller will see any changes the callee makes to it..." I agree with you that confusion is caused by trying to fit terminology established with other languages. Semantics aside, the things that need to be understood are: dictionaries / namespaces, name binding operations and the relationship of name→pointer→object (as you already know). – Honest Abe Jan 16 '14 at 6:28

Effbot (aka Fredrik Lundh) has described Python's variable passing style as call-by-object:

Objects are allocated on the heap and pointers to them can be passed around anywhere.

  • When you make an assignment such as x = 1000, a dictionary entry is created that maps the string "x" in the current namespace to a pointer to the integer object containing one thousand.

  • When you update "x" with x = 2000, a new integer object is created and the dictionary is updated to point at the new object. The old one thousand object is unchanged (and may or may not be alive depending on whether anything else refers to the object).

  • When you do a new assignment such as y = x, a new dictionary entry "y" is created that points to the same object as the entry for "x".

  • Objects like strings and integers are immutable. This simply means that there are no methods that can change the object after it has been created. For example, once the integer object one-thousand is created, it will never change. Math is done by creating new integer objects.

  • Objects like lists are mutable. This means that the contents of the object can be changed by anything pointing to the object. For example, x = []; y = x; x.append(10); print y will print [10]. The empty list was created. Both "x" and "y" point to the same list. The append method mutates (updates) the list object (like adding a record to a database) and the result is visible to both "x" and "y" (just as a database update would be visible to every connection to that database).

Hope that clarifies the issue for you.

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I really appreciate learning about this from a developer. Is it true that the id() function returns the pointer's (object reference's) value, as pepr's answer suggests? – Honest Abe Jan 13 '14 at 22:21
@HonestAbe Yes, in CPython the id() returns the address. But in other pythons such as PyPy and Jython, the id() is just a unique object identifier. – Raymond Hettinger Jan 14 '14 at 9:03
The other answers left me dazed and confused. This one cleared it all up. Thanks. – shongololo May 6 at 10:53
this answer, plus the hint to use id() which shows when an assignment binds an existing name to a new object, is the best in the entire thread. – Tim Richardson Nov 11 at 10:11

(edit - Blair has updated his enormously popular answer so that it is now accurate)

I think it is important to note that the current post with the most votes (by Blair Conrad), while being correct with respect to its result, is misleading and is borderline incorrect based on its definitions. While there are many languages (like C) that allow the user to either pass by reference or pass by value, Python is not one of them.

David Cournapeau's answer points to the real answer and explains why the behavior in Blair Conrad's post seems to be correct while the definitions are not.

To the extent that Python is pass by value, all languages are pass by value since some piece of data (be it a "value" or a "reference") must be sent. However, that does not mean that Python is pass by value in the sense that a C programmer would think of it.

If you want the behavior, Blair Conrad's answer is fine. But if you want to know the nuts and bolts of why Python is neither pass by value or pass by reference, read David Cournapeau's answer.

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Yes, I think the link David Cournapeau gives is the more complete description – David Sykes Jun 28 '10 at 7:00
It is simply not true that all languages are call by value. In C++ or Pascal (and surely many others that I don't know), you have call by reference. For example, in C++, void swap(int& x, int& y) { int temp = x; x = y; y = temp; } will swap the variables passed to it. In Pascal, you use var instead of &. – cayhorstmann Dec 20 '12 at 3:49
I thought I had replied to this long ago but I don't see it. For completeness - cayhorstmann misunderstood my answer. I was not saying everything is call by value in the terms that most people first learn regarding C / C++. It was simply that some value is passed (value, name, pointer, etc.) and that the terms used in Blair's original answer were inaccurate. – KobeJohn Oct 9 at 15:03

A simple trick I normally use is to just wrap it in a list:

def Change(self, var):
    var[0] = 'Changed'

variable = ['Original']
print variable[0]

(Yeah I know this can be inconvenient, but sometimes it is simple enough to do this.)

share|improve this answer
+1 for small amount of text giving the essential workaround to the problem of Python not having pass-by-reference. (As a follow-on comment/question that fits here as well as anywhere on this page: It's not clear to my why python can't provide a "ref" keyword like C# does, that simply wraps the caller's argument in a list like this, and treat references to the argument within the function as the 0th element of the list.) – M Katz Sep 16 '14 at 6:33
Nice. To pass by ref, wrap in [ ]'s. – Justas Feb 1 at 5:49

You got some really good answers here.

x = [ 2, 4, 4, 5, 5 ]
print x  # 2, 4, 4, 5, 5

def go( li ) :
  li = [ 5, 6, 7, 8 ]  # re-assigning what li POINTS TO, does not
  # change the value of the ORIGINAL variable x

go( x ) 
print x  # 2, 4, 4, 5, 5  [ STILL! ]

raw_input( 'press any key to continue' )
share|improve this answer
yea, however if you do x = [ 2, 4, 4, 5, 5], y = x, X[0] = 1 , print x # [1, 4 ,4, 5, 5] print y # [1, 4, 4, 5, 5] – laycat Jun 29 '14 at 3:37

The key to understanding parameter passing is to stop thinking about "variables". There are no variables in Python.

  1. Python has names and objects.
  2. Assignment binds a name to an object.
  3. Passing an argument into a function also binds a name (the parameter name of the function) to an object.

That is all there is to it. Mutability is irrelevant for this question.


a = 1

This binds the name a to an object of type integer that holds the value 1.

b = x

This binds the name b to the same object that the name x is currently bound to. Afterwards, the name b has nothing to do with the name x any more.

See sections 3.1 and 4.1 in the Python 3 language reference.

So in the code shown in the question, the statement self.Change(self.variable) binds the name var (in the scope of function Change) to the object that holds the value 'Original' and the assignment var = 'Changed' (in the body of function Change) assigns that same name again: to some other object (that happens to hold a string as well but could have been something else entirely).

share|improve this answer
"Python has no variables" is a silly and confusing slogan, and I really wish people would stop saying it... :( The rest of this answer is good! – Ned Batchelder Jun 23 '14 at 21:53
It may be shocking, but it is not silly. And I don't think it is confusing either: It hopefully opens up the recipient's mind for the explanation that is coming and puts her in a useful "I wonder what they have instead of variables" attitude. (Yes, your mileage may vary.) – Lutz Prechelt Jun 25 '14 at 7:30
would you also say that Javascript has no variables? They work the same as Python's. Also, Java, Ruby, PHP, .... I think a better teaching technique is, "Python's variables work differently than C's." – Ned Batchelder Jun 25 '14 at 11:09
Yes, Java has variables. So does Python, and JavaScript, Ruby, PHP, etc. You wouldn't say in Java that int declares a variable, but Integer does not. They both declare variables. The Integer variable is an object, the int variable is a primitive. As an example, you demonstrated how your variables work by showing a = 1; b = a; a++ # doesn't modify b. That's exactly true in Python also (using += 1 since there is no ++ in Python)! – Ned Batchelder Oct 29 '14 at 16:29
The concept of "variable" is complex and often vague: A variable is a container for a value, identified by a name. In Python, the values are objects, the containers are objects (see the problem?) and the names are actually separate things. I believe it is much tougher to get an accurate understanding of variables in this manner. The names-and-objects explanation appears more difficult, but is actually simpler. – Lutz Prechelt Oct 9 at 10:51

In this case the variable titled var in the method Change is assigned a reference to self.variable, and you immediately assign a string to var. It's no longer pointing to self.variable. The following code snippet shows what would happen if you modify the data structure pointed to by var and self.variable, in this case a list:

>>> class PassByReference:
...     def __init__(self):
...         self.variable = ['Original']
...         self.change(self.variable)
...         print self.variable
...     def change(self, var):
...         var.append('Changed')
>>> q = PassByReference()
['Original', 'Changed']

I'm sure someone else could clarify this further.

share|improve this answer

as you can state you need to have a mutable object, but let me suggest you to check over the global variables as they can help you or even solve this kind of issues !


>>> def x(y):
...     global z
...     z = y

>>> x
<function x at 0x00000000020E1730>
>>> y
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
NameError: name 'y' is not defined
>>> z
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
NameError: name 'z' is not defined

>>> x(2)
>>> x
<function x at 0x00000000020E1730>
>>> y
Traceback (most recent call last):
  File "<stdin>", line 1, in <module>
NameError: name 'y' is not defined
>>> z
share|improve this answer
Why would you post this on a question that accepted an answer 5 years ago – Tim Castelijns Feb 10 '14 at 18:06
I was tempted to post a similar response- the original questioner may not have known that what he wanted was in fact to use a global variable, shared among functions. Here's the link I would have shared:… In answer to @Tim, Stack Overflow is not only a question and answer site, it's a vast repository of reference knowledge that only gets stronger and more nuanced- much like an active wiki- with more input. – Max P Magee Jun 30 '14 at 18:39

A lot of insights in answers here, but i think an additional point is not clearly mentioned here explicitly. Quoting from python documentation

"In Python, variables that are only referenced inside a function are implicitly global. If a variable is assigned a new value anywhere within the function’s body, it’s assumed to be a local. If a variable is ever assigned a new value inside the function, the variable is implicitly local, and you need to explicitly declare it as ‘global’. Though a bit surprising at first, a moment’s consideration explains this. On one hand, requiring global for assigned variables provides a bar against unintended side-effects. On the other hand, if global was required for all global references, you’d be using global all the time. You’d have to declare as global every reference to a built-in function or to a component of an imported module. This clutter would defeat the usefulness of the global declaration for identifying side-effects."

Even when passing a mutable object to a function this still applies. And to me clearly explains the reason for the difference in behavior between assigning to the object and operating on the object in the function.

def test(l):
    print "Received", l , id(l)
    l = [0, 0, 0]
    print "Changed to", l, id(l)  # New local object created, breaking link to global l

l= [1,2,3]
print "Original", l, id(l)
print "After", l, id(l)


Original [1, 2, 3] 4454645632
Received [1, 2, 3] 4454645632
Changed to [0, 0, 0] 4474591928
After [1, 2, 3] 4454645632

The assignment to an global variable that is not declared global therefore creates a new local object and breaks the link to the original object.

share|improve this answer

Python’s pass-by-assignment scheme isn’t quite the same as C++’s reference parameters option, but it turns out to be very similar to the argument-passing model of the C language (and others) in practice:

  • Immutable arguments are effectively passed “by value.” Objects such as integers and strings are passed by object reference instead of by copying, but because you can’t change immutable objects in place anyhow, the effect is much like making a copy.
  • Mutable arguments are effectively passed “by pointer.” Objects such as lists and dictionaries are also passed by object reference, which is similar to the way C passes arrays as pointers—mutable objects can be changed in place in the function, much like C arrays.
share|improve this answer

Here is the simple (I hope) explanation of the concept pass by object used in Python.
Whenever you pass an object to the function, the object itself is passed (object in Python is actually what you'd call a value in other programming languages) not the reference to this object. In other words, when you call:

def change_me(list):
   list = [1, 2, 3]

my_list = [0, 1]

The actual object - [0, 1] (which would be called a value in other programming languages) is being passed. So in fact the function change_me will try to do something like:

[0, 1] = [1, 2, 3]

which obviously will not change the object passed to the function. If the function looked like this:

def change_me(list):

Then the call would result in:

[0, 1].append(2)

which obviously will change the object. This answer explains it well.

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The problem is that the assignment does something else than you expect. The list = [1, 2, 3] causes reusing the list name for something else and forgeting the originally passed object. However, you can try list[:] = [1, 2, 3] (by the way list is wrong name for a variable. Thinking about [0, 1] = [1, 2, 3] is a complete nonsense. Anyway, what do you think means the object itself is passed? What is copied to the function in your opinion? – pepr Oct 3 '12 at 20:46
@pepr objects aren't literals. They are objects. The only way to talk about them is giving them some names. That's why it's so simple once you grasp it, but enormously complicated to explain. :-) – Veky May 9 '14 at 9:10
@Veky: I am aware of that. Anyway, the list literal is converted to the list object. Actually, any object in Python can exist without a name, and it can be used even when not given any name. And you can think about them as about anonymous objects. Think about objects being the elements of a lists. They need not a name. You can access them through indexing of or iterating through the list. Anyway, I insist on [0, 1] = [1, 2, 3] is simply a bad example. There is nothing like that in Python. – pepr May 12 '14 at 11:05
@pepr: I don't necessarily mean Python-definition names, just ordinary names. Of course alist[2] counts as a name of a third element of alist. But I think I misunderstood what your problem was. :-) – Veky May 12 '14 at 12:35
Argh. My English is obviously much worse than my Python. :-) I'll try just once more. I just said you have to give object some names just to talk about them. By that "names" I didn't mean "names as defined by Python". I know Python mechanisms, don't worry. – Veky May 15 '14 at 5:20

protected by Robert Harvey Apr 19 '12 at 22:49

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