# Why Python built in “all” function returns True for empty iterables?

I know it has a good reason, but I want to know what reason?

``````>>> print all([])
True
``````

If all() is intended to check if every item on iterable evaluates to "True", and we know empty lists are evaluated to False

``````>>> bool([])
False
``````

So why the all() returns True for empty lists?

< edit >

I already read the docs, and I know the implementation

`````` def all(iterable):
for element in iterable:
if not element:
return False
return True
``````

But the question is why not?

``````def all(iterable):
if not iterable:
return False
for element in iterable:
if not element:
return False
return True
``````

There is a logic on this? if you have a list of done-tasks

``````today_todo_status = [task.status for task in my_todo if task.date == today]
can_i_go_home = all(today_todo_status)
``````

Ok, on the above hypothetical example it really makes sense, if I have no tasks, so I can go home.

But there are other cases and I dont think all() was made for todo lists.. LOL

< /edit >

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As pointed out, all states are simultaneously true and false for nothing, and a null set contains nothing. What really makes sense for your example is not `all(today_todo_tasks)`, but `any(map(lambda task: task.status != DONE, today_todo_tasks))`. –  Silas Ray Aug 16 '12 at 13:33
possible duplicate of Reason for "all" and "any" result on empty lists –  Mark Mikofski Jan 1 at 22:14
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## 4 Answers

This is expressed as "For all X in S, X is true". If S is empty, there are no X. However, the truth statement remains True, because for all X, X was true... there just aren't any X!

Here is a explanation using logic.

Consider two sets A and B where A+B is the union of the two sets.

If any(A+B) = True -> any(A) or any(B) = True but we cannot assert either any(A)=True or any(B)=True.

If any(A+B) = False -> any(A) = False and any(B) = False.

If all(A+B) = True -> all(A)=True and all(B)=True

if all(A+B) = False -> all(A)=False or all(B)=False but we cannot assert either all(A)=False or all(B)=False.

Now instead of B, let's add the empty set 0 to A. We want to come up logic such that adding the empty set does not change the values of all() or any(), since A+0=A.

any(A+0) = any(A) or any(0)

any(0) must be False, so that if any(A) is True, any(A+0) is True, and if any(A) is False, any(A+0) is False.

all(A+0) = all(A) and all(0)

if all(A) is True, all(A+0) is True. Therefore, all(0) is True.

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As this answer (correctly) implies, the all() function is intended to mimic the universal quantifier in mathematics, which is defined to be true when applied to the empty set. See en.wikipedia.org/wiki/Vacuous_truth for a discussion of why this is the case, and why it feels wrong to many (including the OP). –  happydave Aug 16 '12 at 2:20
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`all()` (documented to "Return True if all elements of the iterable are true (or if the iterable is empty).") is equivalent to the following:

``````def all(iterable):
for element in iterable:
if not element:
return False
return True
``````

Since there are no elements, it will skip the loop and return `True`.

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This is just circular logic that begs the question. 'It was defined this way because this is the way it was defined' is not really an answer... –  Silas Ray Aug 16 '12 at 2:12
I saw that on the docs.. but it does not answer the question. Why not check if the iterable is False and return it? –  rochacbruno Aug 16 '12 at 2:13
@sr2222 It shows the logic behind how `all()` operates. By showing that the method returns `True` unless there is a `False` element in it, we can understand why it returns `True` for an empty list. –  Eric Aug 16 '12 at 2:15
@rochacbruno Why would you check if it was `False` first? A list with all `True` elements can be empty; a set of 0 elements is still a set that contains no `False` elements. –  Eric Aug 16 '12 at 2:16
The question is not how does it operate, but why was it made to operate that way. @Interrobang actually provides an explanation. It is as if rochacbruno asked, "why does the Earth rotate around the sun," you answered, "because an orbit is defined as a body moving around another body," and Interrobang answered, "gravity." –  Silas Ray Aug 16 '12 at 2:21
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Because all elements are True. When there are no elements, you can say that 'all elements are ... anything'

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This comes from the mathematical logic.

"everything is true of the elements of the empty set" (http://en.wikipedia.org/wiki/Empty_set)

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