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>>> False in [0]
>>> type(False) == type(0)

The reason I stumbled upon this:

For my unit-testing I created lists of valid and invalid example values for each of my types. (with 'my types' I mean, they are not 100% equal to the python types) So I want to iterate the list of all values and expect them to pass if they are in my valid values, and on the other hand, fail if they are not. That does not work so well now:

>>> valid_values = [-1, 0, 1, 2, 3]
>>> invalid_values = [True, False, "foo"]
>>> for value in valid_values + invalid_values:
...     if value in valid_values:
...         print 'valid value:', value
valid value: -1
valid value: 0
valid value: 1
valid value: 2
valid value: 3
valid value: True
valid value: False

Of course I disagree with the last two 'valid' values.

Does this mean I really have to iterate through my valid_values and compare the type?

share|improve this question
+1 Hmm, I never though that python's in does not check for type. Very interesting . . . –  OnesimusUnbound Dec 19 '11 at 11:03
@BenJames, hmm, I wonder how would it would break the duck typing in Python? –  OnesimusUnbound Dec 19 '11 at 11:04

4 Answers 4

up vote 3 down vote accepted

As others have written, the "in" code does not do what you want it to do. You'll need something else.

If you really want a type check (where the check is for exactly the same type) then you can include the type in the list:

>>> valid_values = [(int, i) for i in [-1, 0, 1, 2, 3]]
>>> invalid_values = [True, False, "foo"]
>>> for value in [v[1] for v in valid_values] + invalid_values:
...   if (type(value), value) in valid_values:
...     print value, "is valid"
...   else:
...     print value, "is invalid"
-1 is valid
0 is valid
1 is valid
2 is valid
3 is valid
True is invalid
False is invalid
foo is invalid

Handling subtypes is a bit more difficult, and will depend on what you want to do.

share|improve this answer
I used your solution to prevent the additional loop. But I changed it to: valid_values = [(type(v), v) for v in [-1, 0, 1, 2, 3]] –  Martin Flucka Dec 19 '11 at 12:59

The problem is not the missing type checking, but because in Python bool is a subclass of int. Try this:

>>> False == 0
>>> isinstance(False, int)
share|improve this answer
I don't complain about False == 0, but only about the fact that "in" will not check for the type. –  Martin Flucka Dec 19 '11 at 11:07
in returns true if one item in the sequence is equal to the requested object. So your problem is not the in operator, but the == operator. –  Constantinius Dec 19 '11 at 11:09
I just would like to have a check for identity there. Is there a way to do this without using a loop? –  Martin Flucka Dec 19 '11 at 11:11
Oh, I comming from .Net side, I have a notion that bool and int are under the object class. Assuming that __cmp__ is used in in and upon checking, bool.__cmp__ uses that of int. I wonder if bool would just override it's own __cmp__? –  OnesimusUnbound Dec 19 '11 at 11:12
Just checked PEP 285, Adding a bool type(under Specification) and True + 1 == 2 will work due to backward compatibility. –  OnesimusUnbound Dec 19 '11 at 11:18

According to the documentation, __contains__ is done by iterating over the collection and testing elements by ==. Hence the actual problem is caused by the fact, that False == 0 is True.

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For the pedantic... it checks for a __contains__(self,thing) method first, then falls back to iterating over the object. For a true list, there is __contains__, thus the fallback. –  Gregg Lind Dec 19 '11 at 23:04
@GreggLind you are of course right. However, I could not find a better definition of "in". In order to conform to the principle of least surprise, an overloaded __contains__ method should do something similar anyway. –  nd. Dec 20 '11 at 9:07
I have had this bite me when determining containment exhausts a generator and/or runs forever. Avoidable by writing a smarter __contains__. (think of things like itertools.cycle) –  Gregg Lind Dec 20 '11 at 15:48

Since True == 1 and False == 0 it's hard to differentiate between the two.

One possible but ugly approach (which is also not guaranteed to work in all Python implementations but should be OK in CPython):

>>> for value in valid_values + invalid_values:
...    if value in valid_values and not any(v is value for v in invalid_values):
...        print ('valid value:', value)
valid value: -1
valid value: 0
valid value: 1
valid value: 2
valid value: 3
share|improve this answer
I would have liked to prevent another loop. Since this check will be executed quite often during most of my tests. –  Martin Flucka Dec 19 '11 at 11:29

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