One of the basic data structures in Python is the dictionary, which allows one to record "keys" for looking up "values" of any type. Is this implemented internally as a hash table? If not, what is it?
asked Sep 22, 2008 at 13:22
4 Answers
Yes, it is a hash mapping or hash table. You can read a description of python's dict implementation, as written by Tim Peters, here.
That's why you can't use something 'not hashable' as a dict key, like a list:
>>> a = {}
>>> b = ['some', 'list']
>>> hash(b)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: list objects are unhashable
>>> a[b] = 'some'
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: list objects are unhashable
You can read more about hash tables or check how it has been implemented in python and why it is implemented that way.
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1The Tim Peters link seams to be broken, is there a clean link out there? Jun 25, 2012 at 15:42
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1@MattAlcock: I've updated the link. Sometimes (usually due to someone wanting their email address removed somewhere) the python list archives are rebuilt and the ids of emails change, thus breaking these links. The pydotorg admins generally try to avoid that these days.– Martijn Pieters ♦Aug 19, 2012 at 9:19
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1But using
.keys()can retrieve a list of keys. A real hash table wouldn't store keys, just hashes to save space. May 11, 2016 at 20:41 -
1More complete description of python dict implementation here: laurentluce.com/posts/python-dictionary-implementation Jul 18, 2017 at 18:42
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@noɥʇʎԀʎzɐɹƆ - the key itself is not stored, only a reference to it and the hash.– noskloJul 17, 2020 at 10:14
There must be more to a Python dictionary than a table lookup on hash(). By brute experimentation I found this hash collision:
>>> hash(1.1)
2040142438
>>> hash(4504.1)
2040142438
Yet it doesn't break the dictionary:
>>> d = { 1.1: 'a', 4504.1: 'b' }
>>> d[1.1]
'a'
>>> d[4504.1]
'b'
Sanity check:
>>> for k,v in d.items(): print(hash(k))
2040142438
2040142438
Possibly there's another lookup level beyond hash() that avoids collisions between dictionary keys. Or maybe dict() uses a different hash.
(By the way, this in Python 2.7.10. Same story in Python 3.4.3 and 3.5.0 with a collision at hash(1.1) == hash(214748749.8).)
(I haven't found any collisions in Python 3.9.6. Since the hashes are bigger -- hash(1.1) == 230584300921369601 -- I estimate it would take my desktop a thousand years to find one. So I'll get back to you on this.)
answered Nov 1, 2015 at 4:01
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37So collisions are unavoidable. Set S may contain an infinitely large number of items, and you want it to hash to a number a computer can store. Every usable implementation of a hash table resolves collisions, with two of the most frequent methods being a) open addressing and b) chaining. Just because it doesn't utilize a perfect hash doesn't mean it's not a hash table. Jun 6, 2017 at 17:04
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2Collisions will happen in general, because there are infinite possible hashable values and finite hash codes. Even a hash table would have to handle collision somehow. Feb 11, 2019 at 7:06
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3@YanfengLiu I believe those are exactly the same points TurnipEntropy made. Feb 11, 2019 at 11:03
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2In Python 3.7, it looks like there are 2E20 minus 1 possible hash values, in fact. From -1E20 minus 1 to (+)1E20 minus 1. Try
hash('I wandered lonely as a cloud, that drifts on high o\'er vales and hills, when all at once, I saw a crowd, a host of golden daffodils.')This gives a 19-digit decimal --4037225020714749784if you're geeky enough to care. Continue in your own words, kids, and the hash is still a 19-digit number. I assume there is a limit on length of string you can hash in Python, but safe to say many more possible strings than possible values. Andhash(False)= 0 by the way. Jun 10, 2019 at 21:49 -
7The reason why it doesn't break the dictionary is because under the hood the duplicate values are implemented using a linked list, and they are stored alongside a pointer back to the key they were generated from. Feb 11, 2021 at 22:16
Yes. Internally it is implemented as open hashing based on a primitive polynomial over Z/2 (source).
answered Sep 22, 2008 at 13:25
To expand upon nosklo's explanation:
a = {}
b = ['some', 'list']
a[b] = 'some' # this won't work
a[tuple(b)] = 'some' # this will, same as a['some', 'list']
answered Sep 22, 2008 at 15:09
dictimplementation.