54
list = [1, 2, 3]
print list.append(4)   ## WRONG, print does not work, append() returns None

## RIGHT:
list.append(4)
print list  ## [1, 2, 3, 4]

I'm learning Python and I'm not sure if this problem is specific to the language and how append is implemented in Python.

  • 3
    in the first instance, your printing the result of the append operation. if append() was completed successfully, it's returning 'None', as in, problems encountered: None – ChaseTheSun May 20 '13 at 0:57
  • 6
    append will return None if it worked. There is not much more to it than that. – squiguy May 20 '13 at 0:58
  • Ah it would be easier to understand (at least for me) if the comment in the original code had mentioned that append is a void function. This makes sense, thanks. – Nima Vaziri May 20 '13 at 1:08
  • 2
    The convention that most of the standard library uses is that if a method is supposed to mutate the object in place, then it should return None. There are a few exceptions where following this rule would make the code harder to use (list.pop is one example). But those are definitely exceptions and not the rule. – mgilson May 20 '13 at 1:12
  • This question is very similar to the one you asked. Check out the answers there as well. – mgilson May 20 '13 at 1:19
59

append is a mutating (destructive) operation (it modifies the list in place instead of of returning a new list). The idiomatic way to do the non-destructive equivalent of append would be

l = [1,2,3]
print l + [4] # [1,2,3,4]
print l # [1,2,3]

to answer your question, my guess is that if append returned the newly modified list, users might think that it was non-destructive, ie they might write code like

m = l.append("a")
n = l.append("b")

and expect n to be [1,2,3,"b"]

18

It is a convention in Python that methods that mutate sequences return None.

Consider:

>>> a_list = [3, 2, 1]
>>> print a_list.sort()
None
>>> a_list
[1, 2, 3]

>>> a_dict = {}
>>> print a_dict.__setitem__('a', 1)
None
>>> a_dict
{'a': 1}

>>> a_set = set()
>>> print a_set.add(1)
None
>>> a_set
set([1])

Starting in Python 3.3, this is now more explicitly documented:

Some collection classes are mutable. The methods that add, subtract, or rearrange their members in place, and don’t return a specific item, never return the collection instance itself but None.

The Design and History FAQ gives the reasoning behind this design decision (with respect to lists):

Why doesn’t list.sort() return the sorted list?

In situations where performance matters, making a copy of the list just to sort it would be wasteful. Therefore, list.sort() sorts the list in place. In order to remind you of that fact, it does not return the sorted list. This way, you won’t be fooled into accidentally overwriting a list when you need a sorted copy but also need to keep the unsorted version around.

In Python 2.4 a new built-in function – sorted() – has been added. This function creates a new list from a provided iterable, sorts it and returns it.

5

One word of advice would be to avoid using key words or functions as variable names. In your code above, you use list as a variable:

list = [1, 2, 3]

I would advise against using list as a variable name as list is actually already defined as a builtin type. As ChaseTheSun and squiguy pointed out, there isn't much more to it then

l = [1, 2, 3]
l.append(4)
print l  ## [1, 2, 3, 4]
0

It does not return anything. it appends/add to the variable, to see you should use the first variable which used to append in print

friends=["Rajendra V"]
friends.append("John")
print(friends)

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