I created the following dictionary

exDict = {True: 0, False: 1, 1: 'a', 2: 'b'}

and when I print exDict.keys(), well, it gives me a generator. Ok, so I coerce it to a list, and it gives me

[False, True, 2]

Why isn't 1 there? When I print exDict.items() it gives me

[(False, 1), (True, 'a'), (2, 'b')]

Anyone have a guess about what's going on here? I'm stumped.

  • 2
    Nice head-scratcher! Python's designers try to avoid surprises, but you can't get them all... – alexis May 4 '16 at 8:38
  • 3
    you have the solution in your items: (True, 'a'), which is the value for 1. – njzk2 May 4 '16 at 15:05

This happens because True == 1 (and False == 0, but you didn't have 0 as a key). You'll have to refactor your code or data somehow, because a dict considers keys to be the same if they are "equal" (rather than is).

  • 1
    I'm not certain if there is certainty. I wouldn't rely on it anyway. – John Zwinck May 4 '16 at 4:03
  • 1
    @heemayl even though the order of items in a dict isn't guaranteed, I think the key it uses will be the first one encountered. It won't replace a key when it finds an existing one that's equivalent. – Mark Ransom May 4 '16 at 4:40
  • 1
    @heemayl : contrary to what Mark Ransom suggested, in current 2.7.x and 3.x the final value is the last one encountered of an equivalent key (in your example it's a) . This also makes sense, if we consider that the dictionary is probably constructed iteratively from the literal, so "later" mappings overwrite the "earlier" ones. – mikołak May 4 '16 at 13:05
  • 4
    I wish multiple instances of the same key in a dict literal caused a runtime error. – jpmc26 May 4 '16 at 13:23
  • 1
    @mikołak, I wasn't talking about the value, I was talking about the key. I just tested Python 2.7.10 and it works the way I said, retaining the original key. It also works the way you said, retaining the last value. – Mark Ransom May 4 '16 at 14:50

What you are seeing is python coercing the 1 to be equal to the True.

You'll see that the dictionary you print is:

False  1
True   a
2      b

Where the value a was meant to be assigned to the 1, but instead the value for True got reassigned to a.

According to the Python 3 Documentation:

The Boolean type is a subtype of the integer type, and Boolean values behave like the values 0 and 1, respectively, in almost all contexts, the exception being that when converted to a string, the strings "False" or "True" are returned, respectively.

Emphasis mine.

Note: In python 2.X True and False can be re-assigned, so this behavior cannot be guaranteed.


Python take the 1 as True. And the Boolean type is a subtype of the integer type

In [1]: a = {}

In [2]: a[True] = 0

In [3]: 1 in a.keys()
Out[3]: True

If you insert a key-value pair in a dict python checks if the key already exists and if it exists it will replace the current value.

This check does something like this:

def hash_and_value_equal(key1, key2):
    return hash(key1) == hash(key2) and key1 == key2

So not only must the values be equal but also their hash. Unfortunatly for you True and 1 but also False and 0 will be considered equal keys:

>>> hash_and_value_equal(0, False)

>>> hash_and_value_equal(1, True)

and therefore they replace the value (but not the key):

>>> a = {1: 0}
>>> a[True] = 2
>>> a
{1: 2}

>>> a = {False: 0}
>>> a[0] = 2
>>> a
{False: 2}

I've showed the case of adding a key manually but the steps taken are the same when using the dict literal:

>>> a = {False: 0, 0: 2}
>>> a
{False: 2}

or the dict-builtin:

>>> a = dict(((0, 0), (False, 2)))
>>> a
{0: 2}

This can be very important if you write own classes and want to use them as potential keys inside dictionaries. Depending on your implementation of __eq__ and __hash__ these will and won't replace the values of equal but not identical keys:

class IntContainer(object):
    def __init__(self, value):
        self.value = value

    def __eq__(self, other):
        return self.value == other

    def __hash__(self):
        # Just offsetting the hash is enough because it also checks equality
        return hash(1 + self.value)

>>> hash_equal(1, IntContainer(1))

>>> hash_equal(2, IntContainer(1))

So these won't replace existing integer keys:

>>> a = {1: 2, IntContainer(1): 3, 2: 4}
>>> a
{1: 2, <__main__.IntContainer at 0x1ee1258fe80>: 3, 2: 4}

or something that is considered as identical key:

class AnotherIntContainer(IntContainer):
    def __hash__(self):
        # Not offsetted hash (collides with integer)
        return hash(self.value)

>>> hash_and_value_equal(1, AnotherIntContainer(1))

These will now replace the integer keys:

>>> a = {1: 2, AnotherIntContainer(1): 5}
>>> a
{1: 5}

The only really important thing is to keep in mind that dictionary keys are consered equal if the objects and their hash is equal.

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