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So in Python 2 you could use something like

>>> items = [[1, 2], [3], [3], 4, 'a', 'b', 'a']
>>> from itertools import groupby
>>> [k for k, g in groupby(sorted(items))]
[4, [1, 2], [3], 'a', 'b']

Which works well, in O(N log N) time. However Python 3 exclaims TypeError: unorderable types: int() < list(). So What's the best way to do it in Python 3? (I know best is a subjective term but really there should be one way of doing it according to Python)

EDIT: It doesn't have to use a sort, but I'm guessing that would be the best way

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Can those lists not be tuples? – Jakob Bowyer Apr 15 '13 at 11:50
@JakobBowyer Forgive me for not thinking up a better example, for the sake of this question and it's title, let's say they can't – user2282357 Apr 15 '13 at 11:51
@JakobBowyer: That wouldn't help anything; then he'd just get an error about int and tuple being unorderable. – abarnert Apr 15 '13 at 11:51
@user2282357: Why are you adding the groupby complexity here? The error comes in sorted(items); you don't need any more than that. – abarnert Apr 15 '13 at 11:52
@abarnert I don't quite follow. that was just a way to get unique elements – user2282357 Apr 15 '13 at 11:55
up vote 5 down vote accepted

In 2.x, values of two incomparable built-in types are ordered by type. The order of the types is not defined, except that it will be consistent during one run of the interpreter. So, 2 < [2] may be true or false, but it will be consistently true or false.

In 3.x, values of incomparable built-in types are incomparable—meaning they raise a TypeError if you try to compare them. So, 2 < [2] is an error. And, at least as of 3.3, the types themselves aren't even comparable. But if all you want to reproduce is the 2.x behavior, their ids are definitely comparable, and consistent during a run of the interpreter. So:

sorted(items, key=lambda x: (id(type(x)), x))

For your use case, that's all you need.

However, this won't be exactly the same thing that 2.x does, because it means that, for example, 1.5 < 2 may be False (because float > int). If you want to duplicate the exact behavior, you need to write a key function that first tries to compare the values, then on TypeError falls back to comparing the types.

This is one of the few cases where an old-style cmp function is a lot easier to read than a new-style key function, so let's write one of those, then use cmp_to_key on it:

def cmp2x(a, b):
        if a==b: return 0
        elif a<b: return -1
        elif b<a: return 1
    except TypeError:
    return cmp2x(id(type(a)), id(type(b)))
sorted(items, key=functools.cmp_to_key(cmp2x))

This still doesn't guarantee the same order between two values of different types that 2.x would give, but since 2.x didn't define any such order (just that it's consistent within one run), there's no way it could.

There is still one real flaw, however: If you define a class whose objects are not fully-ordered, they will end up sorting as equal, and I'm not sure this is the same thing 2.x would do in that case.

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I'm no python expert yet, but, aren't the dictionaries supposed to solve this kind of problems ? {"key":value, ...} – user2244984 Apr 15 '13 at 11:54
@user2244984: I'm not sure how dictionaries would solve anything related to the original problem. Sets would… but the whole problem is that the values aren't hashable, which means they can't be used with either sets or dictionaries. – abarnert Apr 15 '13 at 11:58
ok, I need a definition for unhashable because this is the first the time that I read about this term: what's not hashable ? – user2244984 Apr 15 '13 at 12:02
@abarnert Your first example gives me: TypeError: unorderable types: type() < type(), the second one seems to work, the sorting isn't the same as Python 2 if you try it with 3.3 and 4.4 in the list but that wasn't my question so I guess that's fine. – user2282357 Apr 15 '13 at 12:06
Technically, any object that either doesn't define __hash__, or whose __hash__ raises a TypeError, is not hashable. (Really, if it raises any other kind of error, it's still not hashable.) – abarnert Apr 15 '13 at 12:06

Let's take a step back.

You want to uniquify a collection.

If the values were hashable, you'd use the O(N) set solution. But they're not. If you could come up with some kind of hash function, you could equivalently use a dict of myhash(value): value. If your use case really is "nothing but hashable values and flat lists of hashable values", you could do that by trying to hash, then falling back to hash(tuple()). But in general, that's not going to work.

If they were fully ordered, you'd use the O(N log N) sorted solution (or, equivalent, a tree-based solution or similar). If you could come up with some kind of full-ordering function, you could just pass a key to the sorted function. I think this will work in your use case (hence my other answer). But, if not, no O(N log N) solution is going to work.

If they're neither, you can fall back to the O(N**2) linear search solution:

unique = []
for value in items:
    if value not in unique:

If you can't find some way to define a full-ordering or a hash function on your values, this is the best you can do.

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