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I'm a bit confused about what can/can't be used as a key for a python dict.

dicked = {}
dicked[None] = 'foo'     # None ok
dicked[(1,3)] = 'baz'    # tuple ok
import sys
dicked[sys] = 'bar'      # wow, even a module is ok !
dicked[(1,[3])] = 'qux'  # oops, not allowed

So a tuple is an immutable type but if I hide a list inside of it, then it can't be a key.. couldn't I just as easily hide a list inside a module?

I had some vague idea that that the key has to be "hashable" but I'm just going to admit my own ignorance about the technical details; I don't know what's really going on here. What would go wrong if you tried to use lists as keys, with the hash as, say, their memory location?

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Here is a good discussion:… – Hernan Aug 31 '11 at 13:32
Got a chuckle out of your variable name. – kindall Aug 31 '11 at 18:46
up vote 14 down vote accepted

There's a good article on the topic in the Python wiki: Why Lists Can't Be Dictionary Keys. As explained there:

What would go wrong if you tried to use lists as keys, with the hash as, say, their memory location?

It can be done without really breaking any of the requirements, but it leads to unexpected behavior. Lists are generally treated as if their value was derived from their content's values, for instance when checking (in-)equality. Many would - understandably - expect that you can use any list [1, 2] to get the same key, where you'd have to keep around exactly the same list object. But lookup by value breaks as soon as a list used as key is modified, and for lookup by identity requires you to keep around exactly the same list - which isn't requires for any other common list operation (at least none I can think of).

Other objects such as modules and object make a much bigger deal out of their object identity anyway (when was the last time you had two distinct module objects called sys?), and are compared by that anyway. Therefore, it's less surprising - or even expected - that they, when used as dict keys, compare by identity in that case as well.

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The issue is that tuples are immutable, and lists are not. Consider the following

d = {}
li = [1,2,3]
d[li] = 5

What should d[li] return? Is it the same list? How about d[[1,2,3]]? It has the same values, but is a different list?

Ultimately, there is no satisfactory answer. For example, if the only key that works is the original key, then if you have no reference to that key, you can never again access the value. With every other allowed key, you can construct a key without a reference to the original.

If both of my suggestions work, then you have very different keys that return the same value, which is more than a little surprising. If only the original contents work, then your key will quickly go bad, since lists are made to be modified.

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Yes, it's the same list so I would expect d[li] to remain 5. d[[1,2,3]] would refer to a different list object as the key, so it would be a KeyError. I don't really see any problem yet.. except that letting a key get garbage collected might make some of the dict values inaccessible. But that's a practical problem not a logical problem.. – wim Aug 31 '11 at 13:41
@wim: d[list(li)] being a KeyError is part of the problem. In nearly every other use case, li would be indistinguishable from a new list with identical contents. It works, but it's counter-intuitive to many. Plus, when was the last time you really has to use a list as dict key? The only use case I can imagine is when you're hashing everything by identity anyway, and in that case you should just do that instead of relying on __hash__ and __eq__ to be identity-based. – delnan Aug 31 '11 at 13:45
@delnan Is the problem simply that it would be not very useful dict because of such complications? or is there some reason why it could actually break a dict? – wim Aug 31 '11 at 13:49
@wim: The latter. As stated in my answer, it doesn't really break the requirements on dict keys, but it's likely to introduce more problems than it solves. – delnan Aug 31 '11 at 13:51
@wim I've updated my answer to include what I think is the biggest problem: lost keys. (In order to get the value, the original key must be present.) – Eric Wilson Aug 31 '11 at 14:00

Here's an answer

What would go wrong if you tried to use lists as keys, with the hash as, say, their memory location?

Looking up different lists with the same contents would produce different results, even though comparing lists with the same contents would indicate them as equivalent.

What about Using a list literal in a dictionary lookup?

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Your awnser can be found here:

Why Lists Can't Be Dictionary Keys

Newcomers to Python often wonder why, while the language includes both a tuple and a list type, tuples are usable as a dictionary keys, while lists are not. This was a deliberate design decision, and can best be explained by first understanding how Python dictionaries work.

Source & more info:

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Why can't I use a list as a dict key in python?

>>> d = {repr([1,2,3]): 'value'}
{'[1, 2, 3]': 'value'}

(for anybody who stumbles on this question looking for a way around it)

as explained by others here, indeed you cannot. You can however use its string representation instead if you really want to use your list.

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Sorry, I don't really see your point. It's no different to using string literals as the keys. – wim Aug 31 '11 at 14:00
True; I just saw so many answers actually explaining why you cannot use lists in terms of 'key must be hashable', which is so true, that I wanted to suggest a way around it, just in case somebody (new) will be looking for it... – Remi Aug 31 '11 at 14:06

The simple answer to your question is that the class list does not implement the method hash which is required for any object which wishes to be used in as a key in a dictionary. However the reason why hash is not implemented the same way it is in say the tuple class (based on the content of the container) is because a list is mutable so editing the list would require the hash to be recalculated which may mean the list in now located in the wrong bucket within the underling hash table. Note that since you cannot modify a tuple (immutable) it doesn't run into this problem.

As a side note the actual implementation of the dictobjects lookup is based on Algorithm D from Knuth Vol. 3, Sec. 6.4. If you have that book available to you it might be a worthwhile read, in addition if your really really interested you may like to take a peek at the developer comments on the actual implementation of dictobject here. It goes into great detail as to exactly how it works. There is also a python lecture on the implementation of dictionaries which you may be interested in. They go through the definition of a key and what a hash is in the first few minutes.

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According to the Python 2.7.2 documentation:

An object is hashable if it has a hash value which never changes during its lifetime (it needs a hash() method), and can be compared to other objects (it needs an eq() or cmp() method). Hashable objects which compare equal must have the same hash value.

Hashability makes an object usable as a dictionary key and a set member, because these data structures use the hash value internally.

All of Python’s immutable built-in objects are hashable, while no mutable containers (such as lists or dictionaries) are. Objects which are instances of user-defined classes are hashable by default; they all compare unequal, and their hash value is their id().

A tuple is immutable in the sense that you cannot add, remove or replace its elements, but the elements themselves may be mutable. List's hash value depends on the hash values of its elements, and so it changes when you change the elements.

Using id's for list hashes would imply that all lists compare differently, which would be surprising and inconvenient.

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That doesn't answer the question, does it? hash = id doesn't break the invariant at the end of the first paragraph, the question is why it's not done that way. – delnan Aug 31 '11 at 13:49
@delnan: I added the last paragraph to clarify. – Nicola Musatti Aug 31 '11 at 14:35

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