Why does None hash to -1042159082 (which I found to be equal to number of bytes in a Gigabyte negated)?

I realize this doesn't really effect my code, but I'm curious.

Hashes are used for dictionary key look-ups, so I decided to experiment:

>>> D = {-1042159082: 'Hello', None: 'Hi'}
>>> D[None]
>>> D[-1042159082]

I understand this as Python seeing two identical hashes and then checking type to see what's what. Is that right?

>>> {False: 'Hello', 0: 'Hi'}
{False: 'Hi'}
>>> {0: 'Hi', False: 'Hello'}
{0: 'Hello'}

This is just weird. What's more is that the first key is kept and the second value is kept.

Is this sorcery, or could somebody help me understand?

4 Answers 4


About 2 values which may produce the same output when passed to the built-in hash() function (None and -1042159082 in the question asked):

This is called a collision (see this page on Wikipedia for more information about collisions).

The hashing algorithm which Python uses has a special way to figure out which value the person really wants when there is a collision (see this page in the source code of CPython (the main Python interpreter), starting at line 51, for information on collisions for dicts, at the time of writing this answer; this file also has notes on how dicts are implemented).

About what happens with 0 and False (and more useful info), see other answers to the current question.

  • That's all true but keep in mind that in the OP's example there isn't a hash collision: it's the same key value being given. In Python, False is equal to the integer 0.
    – Ned Deily
    Mar 27, 2011 at 6:38
  • Ned Deily: Thanks, clarified what the part of the answer about collisions the answer is coming to answer.
    – Abbafei
    Mar 27, 2011 at 6:48
  • @Ned - You're incorrect. None hashed to the same negative integer which was reused as another key, but both keys remained in the dictionary. This was inconsistent with the False: 0 example wherein the same action led to a different result. @Abafei, thanks for the correct answer. I looked into the source C code and it was quite interesting to see the conditionals pertaining to Py_None.
    – orokusaki
    Mar 27, 2011 at 18:22
  • Yes, my answer was unclear and incomplete. Abafei is correct that the first example (None) is definitely an example of a collision. I misread your description and focused on the second part (False vs 0). It's good to be looking at the C code. CPython's implementation of dict objects has been fine tuned over the years and the hash table implementation is famous for its efficiency.
    – Ned Deily
    Mar 28, 2011 at 2:48

You can not and should not depend on a particular hash value for a Python object. It's implementation- and machine-dependent. On my machine:

>>> hash(None)

As far as populating dict objects goes (there is no hash object in Python), perhaps the following will help:

>>> False == 0
>>> {0: 'Hello', 0: 'Hi'}
{0: 'Hi'}
>>> {0: 'Hi', 0: 'Hello'}
{0: 'Hello'}
>>> {False: 'Hello', False: 'Hi'}
{False: 'Hi'}
>>> {False: 'Hi', False: 'Hello'}
{False: 'Hello'}

When using the dict constructor, you are supplying two key=value pairs but both of them have the same key (i.e. hashable value) so, since key values in a dict must be unique, the last value is the one that is saved. In other words, each of the constructors above is creating a one-item dict:

>>> print {False: 'Hello', 0: 'Hi'}
{False: 'Hi'}

See here for more info.


No, even if two objects happen to have the same hash, they still won't cause a key collision. Python detects this and works around it (though please don't ask me how).

But False is the same as 0 and True is the same as 1, so when you're using both in a dict construction, you're updating the value when adding another item with the same key.


How do you figure None hashes to that value?

>>> d = {None:'hi'}
>>> d.get(-1042159082)
>>> d.get(None)
>>> hash(None)

I wouldn't rely on the value of hashing None, ever.

As for the dictionary resolution using a literal, I'm assuming that internally, defining a key that 'equals' another, will just do an update instead of a straight add.

>>> class Key(object):
...     key = '1'
...     def __hash__(self):
...         return 1
...     def __eq__(self, other):
...         return hash(self) == hash(other)
>>> class FakeKey(Key):
...     key = '2'
>>> k = Key()
>>> >>> fk = FakeKey()
>>> d = {k:k,fk:fk}
>>> d
{<__main__.Key object at 0x100489f10>: <__main__.FakeKey object at 0x100489fd0>}
>>> ref = d[k]
>>> ref.key
>>> d.keys()[0].key

Appears I'm right (only appears).

  • I didn't figure, I just typed hash(None) into my interpreter. See Ned's answer to answer your questions about hash. Also, why wouldn't you rely on hashing None? It's an in-memory object, or do the Python docs say that somewhere?
    – orokusaki
    Mar 27, 2011 at 6:34
  • What I meant was, I wouldn't rely on the value of hash(None) being consistent. Using None within a dict is fine, but using the value that hash(None) produces is not. Mar 27, 2011 at 6:41
  • And there is seldom a reason to actually need to know the hash value of a Python object. If you think you do, you're probably thinking about it the wrong way. docs.python.org/library/functions.html#hash
    – Ned Deily
    Mar 27, 2011 at 6:50

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