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If I try:

mi_list = ['three', 'small', 'words']
mi_set = set(mi_list)
print mi_set

I get:

set(['three', 'words'])

which is what I expect. Whereas If I try:

mi_list = ['three', 'small', 'words']
mi_set = set(mi_list).remove('small')
print mi_set

I get:



I suspect there's a clue in that if I try to remove an element that isn't present - eg 'big' - an error gets reported:

KeyError: 'big'
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6 Answers 6

up vote 20 down vote accepted

set.remove returns nothing (None).

Your code assigns the return value of set.remove to the variable mi_set. Therefore, mi_set is None.

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+1 It's a subtle gotcha that I've run into before (although with different methods.) –  David Locke Apr 15 '09 at 16:09
+1 exactly. it's not fluent interface. –  vartec Apr 15 '09 at 16:49
+1 it's similar to the list.sort method, it modifies the object but returns None –  kurosch Apr 15 '09 at 22:42

There is a general convention in python that methods which cause side-effects return None. Examples include list.sort, list.append, set.add, set.remove, dict.update, etc.

This is essentially to help you avoid bugs. Say you had a set called mi_set. If you could write:

mi_set2 = mi_set.remove('small')

then a reader might think: "mi_set2 is different from mi_set". But this would not be the case! And the confusion might lead to subtle bugs caused by mistakenly sharing data structures. So by returning None, python forces you to remember that methods like those I listed above modify objects, rather than creating new ones.

See also long discussion here. Although note that methods like sorted() and reversed() have been added since that thread.

[note that list.pop is an exception to this rule, for historical reasons – it lets you use a list like a stack. And even then, it returns the object removed, rather than the list.]

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+1 ooooh I like this.... very nicely explained –  Jarret Hardie Apr 16 '09 at 0:19
Nice answer. sorted and reversed don't change the rationale given here, because they are non-destructive - they don't change the original container. –  babbageclunk Apr 16 '09 at 8:28
Yes, I know sorted() and reversed() don't change the meaning of my post. I mentioned them because they are a solution to some of the issues people raise in that thread. –  John Fouhy Apr 16 '09 at 22:08

Why does it return None? Because .remove, .add, etc. return None :) That's it. They do not support chaining.

set is using methods that change it in place. You could create your own version of set that uses chaining, but that can cause some problems:

class chain_set(set):
   def chain_add(self, x):
      newself = self.copy()
      return newself

cs = chain_set([1,2,3,4])
# chain_set([1, 2, 3, 4, 5])
# chain_set([1, 2, 3, 4, 7])
# chain_set([1, 2, 3, 4, 7, 8])

The problem is - do you expect cs itself to change?

Do you always want to modify the original set (might create some hard to find bugs) or do you want to copy the set every time (might be slow with bigger sets). If you know what behaviour you need and you remember about it - just go ahead with your own set implementation.

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The way to go, in your case, would be to use the difference member:

>>> a = set(["a", "b", "c"])
>>> a = a.difference(["a"])
>>> print a
set(['c', 'b'])

The difference is that remove acts on the current set (python library object member functions that modify an instance usually return None), whereas difference creates and returns a new set.

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Are you sure that the remove function returns a value?

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It does return a value, it just happens to be None. –  Torsten Marek Apr 15 '09 at 13:19
well put Torsten :-) –  Jarret Hardie Apr 16 '09 at 0:17
Not that I have anything against the Socratic method, but I don't think this helps answer the question. –  allyourcode Apr 16 '09 at 7:16

remove modifies the original set without returning anything (or rather, it returns None). This example shows what happens to the original object when you call remove on it:

Python 3.0.1 (r301:69561, Feb 13 2009, 20:04:18) [MSC v.1500 32 bit (Intel)] on win32
Type "help", "copyright", "credits" or "license" for more information.
>>> lst = [1,2,3]
>>> s1 = set(lst)
>>> s1
{1, 2, 3}
>>> s2 = s1.remove(2)  # instead of reassigning s1, I save the result of remove to s2
>>> s1
{1, 3}  # *** 2 is not an element in the original set ***
>>> s2  # s2 is not a set at all!

To answer the other part of your question, the exception indicates that remove tried to remove the argument from the set, but couldn't because the argument is not in the set. Conversely, remove returns None to indicate success.

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