I'm trying to evaluate ((x == a and y == b) or (x == b and y == a))
in Python, but it seems a bit verbose. Is there a more elegant way?
If the elements are hashable, you could use sets:
{a, b} == {y, x}

18@Graham no it doesn't, because there are exactly two items in the right hand set. If both are a, there's no b, and if both are b, there's no a, and in either case the sets can't be equal. – hobbs Oct 18 '19 at 0:46

12On the other hand, if we had three elements on each side and we needed to test whether they could be matched up one to one, then sets wouldn't work.
{1, 1, 2} == {1, 2, 2}
. At that point, you needsorted
orCounter
. – user2357112 supports Monica Oct 18 '19 at 7:09 
11I find this tricky to read (don't read the "{}" as "()"). Enough to comment it  and then the purpose is lost. – Édouard Oct 18 '19 at 11:20

9I know it's python but creating two new sets just to compare the values seems like an overkill to me... Just define a function which does it and call when needed. – marxin Oct 18 '19 at 13:18

5@marxin A function would be even bigger overkill than 2 simple set constructions. And less readable with 4 arguments. – Gloweye Oct 18 '19 at 14:37
I think the best you could get is to package them into tuples:
if (a, b) == (x, y) or (a, b) == (y, x)
Or, maybe wrap that in a set lookup
if (a, b) in {(x, y), (y, x)}
Just since it was mentioned by a couple comments, I did some timings, and tuples and sets appear to perform identically here when the lookup fails:
from timeit import timeit
x = 1
y = 2
a = 3
b = 4
>>> timeit(lambda: (a, b) in {(x, y), (y, x)}, number=int(5e7))
32.8357742
>>> timeit(lambda: (a, b) in ((x, y), (y, x)), number=int(5e7))
31.6169182
Although tuples are actually faster when the lookup succeeds:
x = 1
y = 2
a = 1
b = 2
>>> timeit(lambda: (a, b) in {(x, y), (y, x)}, number=int(5e7))
35.6219458
>>> timeit(lambda: (a, b) in ((x, y), (y, x)), number=int(5e7))
27.753138700000008
I chose to use a set because I'm doing a membership lookup, and conceptually a set is a better fit for that usecase than a tuple. If you measured a significant different between the two structures in a particular use case, go with the faster one. I don't think performance is a factor here though.

12The tuple method looks very clean. I'd be concerned about the performance impact of using a set. You could do
if (a, b) in ((x, y), (y, x))
, though? – Brilliand Oct 18 '19 at 5:19 
18@Brilliand If you're concerned about performance impact, Python is not the language for you. :D – Sneftel Oct 18 '19 at 10:35

I really like the first method, two tuple comparisons. It's easy to parse (one clause at a time) and each clause is very simple. And top of which, it should be relatively efficient. – Matthieu M. Oct 18 '19 at 11:18

Is there any reason to prefer the
set
solution in the answer to the tuple solution from @Brilliand? – user1717828 Oct 18 '19 at 15:28 
A set requires that objects be hashable, so a tuple would be a more general solution with fewer dependencies. The performance, while probably not generally important, may also look very different when dealing with large objects with expensive hashing and equality checks. – Bernhard Barker Oct 19 '19 at 15:23
Tuples make it slightly more readable:
(x, y) == (a, b) or (x, y) == (b, a)
This gives a clue: we're checking whether the sequence x, y
is equal to the sequence a, b
but ignoring ordering. That's just set equality!
{x, y} == {a, b}

,
creates a tuple, not a list. so(x, y)
and(a, b)
are tuples, same asx, y
anda, b
. – kissgyorgy Jan 8 at 13:24 
I meant "list" in the sense of "ordered sequence of elements", not in the sense of the Python
list
type. Edited because indeed this was confusing. – Thomas Jan 8 at 15:52
If the items aren't hashable, but support ordering comparisons, you could try:
sorted((x, y)) == sorted((a, b))

Since this works with hashable items as well (right?), it's a more global solution. – Carl Witthoft Oct 18 '19 at 15:34

6@CarlWitthoft: No. There are types that are hashable but not sortable:
complex
, for example. – dan04 Oct 18 '19 at 22:32
The most elegant way, in my opinion, would be
(x, y) in ((a, b), (b, a))
This is a better way than using sets, i.e. {a, b} == {y, x}
, as indicated in other answers because we don't need to think if the variables are hashable.


5@scohe001 It uses a tuple where the earlier answer uses a set. That earlier answer did consider this solution, but declined to list it as a recommendation. – Brilliand Oct 19 '19 at 0:03
If these are numbers, you can use (x+y)==(a+b) and (x*y)==(a*b)
.
If these are comparable items, you can use min(x,y)==min(a,b) and max(x,y)==max(a,b)
.
But ((x == a and y == b) or (x == b and y == a))
is clear, safe, and more general.

2

3This is the correct answer, in particular the last sentence. Keep it simple, this should not require multiple new iterables or anything like that. For those that want to use sets, take a look at the implementation of set objects and then imagine trying to run this in a tight loop... – Z4tier Oct 18 '19 at 17:52

4@RazvanSocol OP didn't say what the data types are, and this answer does qualify the solutions that are typedependent. – Z4tier Oct 18 '19 at 17:54
As a generalization to more than two variables we can use itertools.permutations
. That is instead of
(x == a and y == b and z == c) or (x == a and y == c and z == b) or ...
we can write
(x, y, z) in itertools.permutations([a, b, c])
And of course the two variable version:
(x, y) in itertools.permutations([a, b])

6Great answer. It is worth pointing out here (for those that haven't done much with generators before) that this is very memory efficient, as only one permutation is created at a time, and the "in" check would stop and return True immediately after a match is found. – robertlayton Oct 20 '19 at 0:01

2It's also worth pointing out that the complexity of this method is
O(N*N!)
; For 11 variables, this can take over a second to finish. (I posted a faster method, but it still takesO(N^2)
, and starts taking over a second on 10k variables; So it seems this can either be done fast or generally (wrt. hashability/orderability), but not both :P) – Aleksi Torhamo Oct 21 '19 at 6:57
You can use tuples to represent your data and then check for set inclusion, like:
def test_fun(x, y):
test_set = {(a, b), (b, a)}
return (x, y) in test_set

3Written as a oneliner and with a list (for nonhashable items), I would consider this to be the best answer. (although I'm a complete Python newbie). – Édouard Oct 18 '19 at 11:02

1@Édouard Now there's another answer that's essentially that (just with a tuple instead of a list, which is more efficient anyway). – Brilliand Oct 19 '19 at 1:17
You already got the most readable solution. There are other ways to express this, perhaps with less characters, but they are less straightforward to read.
Depending on what the values actually represent your best bet is to wrap the check in a function with a speaking name. Alternatively or in addition, you can model the objects x,y and a,b each in dedicated higher class objects that you then can compare with the logic of the comparison in a class equality check method or a dedicated custom function.
It seems the OP was only concerned with the case of two variables, but since StackOverflow is also for those who search for the same question later, I'll try to tackle the generic case here in some detail; One previous answer already contains a generic answer using itertools.permutations()
, but that method leads to O(N*N!)
comparisons, since there are N!
permutations with N
items each. (This was the main motivation for this answer)
First, let's summarize how some of the methods in previous answers apply to the generic case, as motivation for the method presented here. I'll be using A
to refer to (x, y)
and B
to refer to (a, b)
, which can be tuples of arbitrary (but equal) length.
set(A) == set(B)
is fast, but only works if the values are hashable and you can guarantee that one of the tuples doesn't contain any duplicate values. (Eg. {1, 1, 2} == {1, 2, 2}
, as pointed out by @user2357112 under @Daniel Mesejo's answer)
The previous method can be extended to work with duplicate values by using dictionaries with counts, instead of sets: (This still has the limitation that all values need to be hashable, so e.g. mutable values like list
won't work)
def counts(items):
d = {}
for item in items:
d[item] = d.get(item, 0) + 1
return d
counts(A) == counts(B)
sorted(A) == sorted(B)
doesn't require hashable values, but is slightly slower, and requires orderable values instead. (So e.g. complex
won't work)
A in itertools.permutations(B)
doesn't require hashable or orderable values, but like already mentioned, it has O(N*N!)
complexity, so even with just 11 items, it can take over a second to finish.
So, is there a way to be as general, but do it considerably faster? Why yes, by "manually" checking that there's the same amount of each item: (The complexity of this one is O(N^2)
, so this isn't good for large inputs either; On my machine, 10k items can take over a second  but with smaller inputs, like 10 items, this is just as fast as the others)
def unordered_eq(A, B):
for a in A:
if A.count(a) != B.count(a):
return False
return True
To get the best performance, one might want to try the dict
based method first, fall back to the sorted
based method if that fails due to unhashable values, and finally fall back to the count
based method if that too fails due to unorderable values.

counts
is equivalent tocollections.Counter
, which is implemented in C in Python 3 so should be faster, hopefully. – wjandrea Jun 16 at 22:16
x,y, a,b
are: are they ints/floats/strings, arbitrary objects, or what? If they were builtin types and it was possible to keep bothx,y
anda,b
in sorted order, then you could avoid the second branch. Note that creating a set will cause each of the four elementsx,y, a,b
to be hashed, which might or might not be trivial or have a performance implication depending entirely on what type of objects they are. – smci Oct 17 '19 at 23:55((x == a and y == b) or (x == b and y == a))
may look yukky, but 1) its intent is crystal clear and intelligible to all nonPython programmers, not cryptic 2) interpreters/compilers will always handle it well and it can essentially never result in nonperformant code, unlike the alternatives. So, 'more elegant' can have serious downsides too. – smci Oct 18 '19 at 17:28