Python: determining whether any item in sequence is equal to any other

I'd like to compare multiple objects and return `True` only if all objects are not equal among themselves. I tried using the code below, but it doesn't work. If obj1 and obj3 are equal and obj2 and obj3 are not equal, the result is `True`.

``````obj1 != obj2 != obj3
``````

I have more than 3 objects to compare. Using the code below is out of question:

``````all([obj1 != obj2, obj1 != obj3, obj2 != obj3])
``````
-
Is the number of objects fixed, or variable? Are they elements of an array, or in individual variables? –  jwpat7 Jul 30 '12 at 22:06

@Michael Hoffman's answer is good if the objects are all hashable. If not, you can use itertools.combinations:

``````>>> all(a != b for a, b in itertools.combinations(['a', 'b', 'c', 'd', 'a'], 2))
False
>>> all(a != b for a, b in itertools.combinations(['a', 'b', 'c', 'd'], 2))
True
``````
-

If the objects are all hashable, then you can see whether a `frozenset` of the sequence of objects has the same length as the sequence itself:

``````def all_different(objs):
return len(frozenset(objs)) == len(objs)
``````

Example:

``````>>> all_different([3, 4, 5])
True
>>> all_different([3, 4, 5, 3])
False
``````
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Damn! beat me by 10 seconds. –  inspectorG4dget Jul 30 '12 at 19:59
Note that this won't work if the objects are unhashable. –  BrenBarn Jul 30 '12 at 20:00
This doesn't work if one (or all) of the objects is a unhashable (e.g. a list) –  mgilson Jul 30 '12 at 20:01
Why frozenset instead of set? –  Ned Batchelder Jul 30 '12 at 20:04
Wouldn't your function be better named `all_different`? –  Steven Rumbalski Jul 30 '12 at 20:05

You can check that all of the items in a list are unique by converting it to a set.

``````my_obs = [obj1, obj2, obj3]
all_not_equal = len(set(my_obs)) == len(my_obs)
``````
-
``````from itertools import combinations
all(x != y for x, y in combinations(objs, 2))
``````
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That's O(n^2) comparisons - a LOT for large lists. –  inspectorG4dget Jul 30 '12 at 20:15

If the objects are unhashable but orderable (for example, lists) then you can transform the `itertools` solution from O(n^2) to O(n log n) by sorting:

``````def all_different(*objs):
s = sorted(objs)
return all(x != y for x, y in zip(s[:-1], s[1:]))
``````

Here's a full implementation:

``````def all_different(*objs):
try:
return len(frozenset(objs)) == len(objs)
except TypeError:
try:
s = sorted(objs)
return all(x != y for x, y in zip(s[:-1], s[1:]))
except TypeError:
return all(x != y for x, y in itertools.combinations(objs, 2))
``````
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The check for hashability is far too complex (and also slightly wrong). The idiomatic way to do this in Python is to try to build a `frozenset()` and catch `TypeError` if this fails. (The test is slightly wrong because `isinstance(obj, collections.Hashable)` being `True` does not guarantee the object is actually hashable. It only checks if the object has a type that allows it in principle to be hashed. Try `([],)` as a counter example.) –  Sven Marnach Jul 31 '12 at 13:17
@SvenMarnach thanks, fixed. –  ecatmur Jul 31 '12 at 13:31