Why do these two operations (append() resp. +) give different results?

>>> c = [1, 2, 3]
>>> c
[1, 2, 3]
>>> c += c
>>> c
[1, 2, 3, 1, 2, 3]
>>> c = [1, 2, 3]
>>> c.append(c)
>>> c
[1, 2, 3, [...]]

In the last case there's actually an infinite recursion. c[-1] and c are the same. Why is it different with the + operation?

  • 1
    with all due respect to a viable new question: I rolled back to the original question to keep it clean (1 question per thread, see SO FAQ). Please ask a new one or ask follow-up questions inside the comment-threads below each answer. Note: your edits are not lost, click the history and you can copy/paste it into a new question.
    – Abel
    Jan 8, 2010 at 11:56
  • Similar for +=: stackoverflow.com/questions/725782/… Apr 17, 2015 at 18:59
  • it seems that it gives different ans, but not like that. If you want to add a value using + operator you have o use [] sign. c += [c] will give you same result as append. Aug 31, 2017 at 4:34
  • @SharifChowdhury I believe you will get the same result
    – trustory
    Feb 16, 2020 at 23:34

7 Answers 7


To explain "why":

The + operation adds the array elements to the original array. The array.append operation inserts the array (or any object) into the end of the original array, which results in a reference to self in that spot (hence the infinite recursion in your case with lists, though with arrays, you'd receive a type error).

The difference here is that the + operation acts specific when you add an array (it's overloaded like others, see this chapter on sequences) by concatenating the element. The append-method however does literally what you ask: append the object on the right-hand side that you give it (the array or any other object), instead of taking its elements.

An alternative

Use extend() if you want to use a function that acts similar to the + operator (as others have shown here as well). It's not wise to do the opposite: to try to mimic append with the + operator for lists (see my earlier link on why). More on lists below:


[edit] Several commenters have suggested that the question is about lists and not about arrays. The question has changed, though I should've included this earlier.

Most of the above about arrays also applies to lists:

  • The + operator concatenates two lists together. The operator will return a new list object.
  • List.append does not append one list with another, but appends a single object (which here is a list) at the end of your current list. Adding c to itself, therefore, leads to infinite recursion.
  • As with arrays, you can use List.extend to add extend a list with another list (or iterable). This will change your current list in situ, as opposed to +, which returns a new list.

Little history

For fun, a little history: the birth of the array module in Python in February 1993. it might surprise you, but arrays were added way after sequences and lists came into existence.

  • 2
    +1 because I always upvote accurate information. Links to official docs are always a plus!
    – jathanism
    Jan 7, 2010 at 17:09
  • 12
    Another part of "why": sane people expect + to be symmetric: concatenate list with list. Jan 7, 2010 at 17:34
  • 1
    +1, Good point Beni (while I could consider it just as "sane" to say "the object on the rh side is appended to the array on lh side", but personally find the current behavior more sensible).
    – Abel
    Jan 7, 2010 at 18:19
  • if an element is single string, e.g. s = 'word', l = ['this', 'is']. Then l.append(s) and l+s should be the same. Am I correct? Feb 2, 2020 at 22:13
  • 1
    @juanpa.arrivillaga, Ah wait, lists vs arrays. I’ll check tomorrow to update my answer a little, I see now, tx!
    – Abel
    Feb 12, 2022 at 4:38

The concatenation operator + is a binary infix operator which, when applied to lists, returns a new list containing all the elements of each of its two operands. The list.append() method is a mutator on list which appends its single object argument (in your specific example the list c) to the subject list. In your example this results in c appending a reference to itself (hence the infinite recursion).

An alternative to '+' concatenation

The list.extend() method is also a mutator method which concatenates its sequence argument with the subject list. Specifically, it appends each of the elements of sequence in iteration order.

An aside

Being an operator, + returns the result of the expression as a new value. Being a non-chaining mutator method, list.extend() modifies the subject list in-place and returns nothing.


I've added this due to the potential confusion which the Abel's answer above may cause by mixing the discussion of lists, sequences and arrays. Arrays were added to Python after sequences and lists, as a more efficient way of storing arrays of integral data types. Do not confuse arrays with lists. They are not the same.

From the array docs:

Arrays are sequence types and behave very much like lists, except that the type of objects stored in them is constrained. The type is specified at object creation time by using a type code, which is a single character.


append is appending an element to a list. if you want to extend the list with the new list you need to use extend.

>>> c = [1, 2, 3]
>>> c.extend(c)
>>> c
[1, 2, 3, 1, 2, 3]
  • 4
    I thought it's quite clear why the results are different, because operations are not the same! if it would appear that + and extend produce different results that we'd have something to think about. Jan 7, 2010 at 17:12
  • 1
    +1: Why I dislike "why" questions: append and + are different. That's why. I like this answer because offers what do do that makes more sense.
    – S.Lott
    Jan 7, 2010 at 18:52
  • Isn't this site about answering the questions asked? People ask why PHP is called PHP and why __lt__ could not be overloaded in Python (nowadays it can). Why-questions are the most essential ones but often the trickiest to answer: they ask for the essence, not for a pointer to the manual. And of course: if you dislike a question (I dislike most), then don't answer ;-)
    – Abel
    Jan 7, 2010 at 18:57
  • For further demonstration, maybe show c += [c] and c.append(c[:]) too.
    – ephemient
    Jan 7, 2010 at 18:57
  • 2
    @Abel: Why is a+b != a*b? They're different operations. That's the answer. "Why" isn't as helpful as other questions, like "How can I append properly?" Or "What's wrong with this append that leads to infinite recursion?" Questions of the form "What do I do to X" or "What went wrong when I did X"? Or "What should I do instead of X" will also help someone learn, but will provide focused, usable, actionable answers.
    – S.Lott
    Jan 7, 2010 at 19:11

Python lists are heterogeneous that is the elements in the same list can be any type of object. The expression: c.append(c) appends the object c what ever it may be to the list. In the case it makes the list itself a member of the list.

The expression c += c adds two lists together and assigns the result to the variable c. The overloaded + operator is defined on lists to create a new list whose contents are the elements in the first list and the elements in the second list.

So these are really just different expressions used to do different things by design.


The method you're looking for is extend(). From the Python documentation:

    Add an item to the end of the list; equivalent to a[len(a):] = [x].

    Extend the list by appending all the items in the given list; equivalent to a[len(a):] = L.

list.insert(i, x)
    Insert an item at a given position. The first argument is the index of the element before which to insert, so a.insert(0, x) inserts at the front of the list, and a.insert(len(a), x) is equivalent to a.append(x).

you should use extend()

>>> c=[1,2,3]
>>> c.extend(c)
>>> c
[1, 2, 3, 1, 2, 3]

other info: append vs. extend


See the documentation:


  • Add an item to the end of the list; equivalent to a[len(a):] = [x].

list.extend(L) - Extend the list by appending all the items in the given list; equivalent to a[len(a):] = L.

c.append(c) "appends" c to itself as an element. Since a list is a reference type, this creates a recursive data structure.

c += c is equivalent to extend(c), which appends the elements of c to c.

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