# How do you get the logical xor of two variables in Python?

How do you get the logical xor of two variables in Python?

For example, I have two variables that I expect to be strings. I want to test that only one of them contains a True value (is not None or the empty string):

``````str1 = raw_input("Enter string one:")
str2 = raw_input("Enter string two:")
if logical_xor(str1, str2):
print "ok"
else:
``````

The `^` operator seems to be bitwise, and not defined on all objects:

``````>>> 1 ^ 1
0
>>> 2 ^ 1
3
>>> "abc" ^ ""
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
TypeError: unsupported operand type(s) for ^: 'str' and 'str'
``````
• How do you define "xor" for a couple of strings? What do you feel "abc" ^ "" should return that it doesn't?
– mmx
Jan 11, 2009 at 12:39
• It should return True, rather than raise an exception, since only one of the strings is True as defined by normal Python's bool type. Jan 11, 2009 at 19:10
• I'm amazed that Python doesn't have an infix operator called "xor", which would be the most intuitive, Pythonic implementation. Using "^" is consistent with other languages, but not as blatantly readable as most of Python is. Nov 11, 2012 at 3:50
• @MehrdadAfshari The obvious answer to your question is that `a xor a` is defined as `(a and not b) or (not a and b)`, and so `a xor b`, when `a` and `b` are character strings, or any other types, should yield whatever `(a and not b) or (not a and b)` yields.
– Kaz
May 14, 2013 at 15:57
• The issue is that documentation is poor. ^ is "bitwise exclusive or", which literally interpreted means bit by bit, not bool by bool. so x'FFFF00' ^ x'FFFF00' should be x'000000'. Or is this only meant to occur on a char by char basis ? cast as numbers ? We need to iterate the shorter string characters to match the length of the longer string. All this should be built in. Mar 22, 2015 at 2:29

If you're already normalizing the inputs to booleans, then != is xor.

``````bool(a) != bool(b)
``````
• Although this is clever and short, I'm not convinced it's clean. When someone reads this construct in the code, is it immediately obvious to them that this is an xor operation? I felt obliged to add a comment - a sign for me that I'm writing unclear code and try to apologise with a comment.
– user188041
Mar 19, 2012 at 17:25
• Perhaps "is it clear that it's an XOR?" is the wrong question. We were just trying to see whether the answer to two questions are the same, and thinking we'd use XOR to implement that. For example, if we want to ensure that we are not comparing apples to oranges, is "if xor( isApple(x), isApple(y) )" really clearer than "if isApple(x) != isApple(y)" ? Not to me! May 21, 2012 at 18:27
• There is problem with using "!=" as xor. You would probably expect bool(a) != bool(b) != bool(c) to be the same as bool(a) ^ bool(b) ^ bool(c). So do casts to bool, but I would recommend ^. To know what's going up in the first example look up "operator chaining".
– elmo
Jul 25, 2012 at 11:50
• @elmo: +1 for pointing out the difference, and +1 for teaching me what operator chaining is! I am in the camp that says that != is not as readable as ^. Nov 11, 2012 at 3:58
• should it be `bool(a) is not bool(b)` instead?
– RNA
Feb 14, 2017 at 1:35

You can always use the definition of xor to compute it from other logical operations:

``````(a and not b) or (not a and b)
``````

But this is a little too verbose for me, and isn't particularly clear at first glance. Another way to do it is:

``````bool(a) ^ bool(b)
``````

The xor operator on two booleans is logical xor (unlike on ints, where it's bitwise). Which makes sense, since `bool` is just a subclass of `int`, but is implemented to only have the values `0` and `1`. And logical xor is equivalent to bitwise xor when the domain is restricted to `0` and `1`.

So the `logical_xor` function would be implemented like:

``````def logical_xor(str1, str2):
return bool(str1) ^ bool(str2)
``````
• great post, but of all ways to name your parameters, why 'str1' and 'str2'? Jul 4, 2009 at 16:55
• @Token why not. Do you mean because they aren't very Pythonic? Jan 25, 2010 at 6:42
• @Zach Hirsch Could you use (not a and b) instead of (b and not a) for readability or would the definition be inconsistent with xor. Feb 1, 2010 at 15:18
• You should put the nots first like this `(not b and a) or (not a and b)` so that it returns the string if there was one, which seems like the pythonic way for the function to operate. May 7, 2011 at 21:06
• @TokenMacGuy: What were you suggesting he should name them instead? Jun 14, 2012 at 15:38

Bitwise exclusive-or is already built-in to Python, in the `operator` module (which is identical to the `^` operator):

``````from operator import xor
xor(bool(a), bool(b))  # Note: converting to bools is essential
``````
• This is what I needed. When reverse engineering malware lots of times strings are mangled until an XOR operation. Using this chr(xor(ord("n"), 0x1A)) = 't' Jul 11, 2012 at 14:15
• Be careful, this is also bitwise: `xor(1, 2)` returns `3`. From the docstring: `xor(a, b) -- Same as a ^ b.` Remember that anything imported from `operator` is just a functional form of an existing builtin infix operator. Sep 15, 2013 at 16:59
• @askewchan: The `bool` type overloads `__xor__` to return booleans. It'll work just fine, but its overkill when `bool(a) ^ bool(b)` does exactly the same thing. Nov 3, 2014 at 12:48
• @MartijnPieters The `^` operator calls `__xor__` internally. Feb 15, 2018 at 8:41
• @Quantum7: yes, I'm not sure why you are telling me this though. I just said that the `bool` type implements the `__xor__` method specifically because `^` calls it. The point being that `bool(a) ^ bool(b)` works fine, there is no need to use the `operator.xor()` function here. Feb 15, 2018 at 14:21

As Zach explained, you can use:

``````xor = bool(a) ^ bool(b)
``````

Personally, I favor a slightly different dialect:

``````xor = bool(a) + bool(b) == 1
``````

This dialect is inspired from a logical diagramming language I learned in school where "OR" was denoted by a box containing `≥1` (greater than or equal to 1) and "XOR" was denoted by a box containing `=1`.

This has the advantage of correctly implementing exclusive or on multiple operands.

• "1 = a ^ b ^ c..." means the number of true operands is odd. This operator is "parity".
• "1 = a + b + c..." means exactly one operand is true. This is "exclusive or", meaning "one to the exclusion of the others".
• So, True + True + False + True == 3, and 3 != 1, but True XOR True XOR False XOR True == True. Can you elaborate on "correctly implementing XOR on multiple operands"?
– tzot
Jan 11, 2009 at 22:59
• @tzot Your example fails, because according to ddaa's solution, you apply the addition on only two variables at a time. So the right way to write it all out would have to be `(((((True + True)==1)+False)==1)+True)==1`. The answer given here totally generalizes to multiple operands.
– ely
Oct 23, 2012 at 21:18
• Also, there's a difference between a three-way XOR vs. order-of-operations-grouped set of two XORs. So 3-WAY-XOR(A,B,C) is not the same thing as XOR(XOR(A,B),C). And ddaa's example is the former, while yours assumes the latter.
– ely
Oct 23, 2012 at 21:20
• @Mr.F Your explanation doesn't really excuse this answer. In Python, if you just do `True + True + False + True`, you do get `3`, and `True + True + False + True == 3` gives back `True` while `True + True + False + True == 1` gives back `False`. In other words, the answer here doesn't generalize correctly; for it to do so, you need to do additional work. Meanwhile a simple `True ^ True ^ False ^ True` works as expected. Aug 13, 2015 at 21:18
• @jpmc26 I do not understand your comment. The addition approach is meant to generalize the operation in which you want to check that exactly one operand is `True`, a multi-arity XOR. This is a different operation than, for example, `A XOR B XOR ... XOR Z`. In other words, if you plan to use the addition-based version, then upon submitted the operands in `True + True + False + True` you should expect the result to be `False` since more than one of those is `True`, which works if the condition checks for `== 1`.
– ely
Aug 14, 2015 at 0:40
• Python logical `or`: `A or B`: returns `A` if `bool(A)` is `True`, otherwise returns `B`
• Python logical `and`: `A and B`: returns `A` if `bool(A)` is `False`, otherwise returns `B`

To keep most of that way of thinking, my logical xor definintion would be:

``````def logical_xor(a, b):
if bool(a) == bool(b):
return False
else:
return a or b
``````

That way it can return `a`, `b`, or `False`:

``````>>> logical_xor('this', 'that')
False
>>> logical_xor('', '')
False
>>> logical_xor('this', '')
'this'
>>> logical_xor('', 'that')
'that'
``````
• This seems bad, or at least weird, to me. None of the other built-in logical operators return one of three possible values. Jan 11, 2009 at 19:12
• @Zach Hirsch: That's why I said "to keep most of that way of thinking" - since there's no good result when both are true or false Nov 25, 2009 at 22:52
• Logical operation must return logical value, so second "return a or b" looks strange, so second return must return True. Feb 10, 2011 at 13:36
• @Denis Barmenkov: Well, note that python logical operators `and` and `or` won't return logical value. `'foo' and 'bar'` returns `'bar'` ... Feb 13, 2011 at 2:11
• At first sight, the 2 previous answers seem like the best, but on second thought, this one is actually the only truly correct one, i.e. it's the only one that provides an example of a `xor` implementation that is consistent with the built-in `and` and `or`. However, of course, in practical situations, `bool(a) ^ bool(b)` or even `a ^ b` (if `a` and `b` are known to be `bool`) are more concise of course. Jan 13, 2012 at 13:48

I've tested several approaches and `not a != (not b)` appeared to be the fastest.

Here are some tests

``````%timeit not a != (not b)
10000000 loops, best of 3: 78.5 ns per loop

%timeit bool(a) != bool(b)
1000000 loops, best of 3: 343 ns per loop

%timeit not a ^ (not b)
10000000 loops, best of 3: 131 ns per loop
``````

Edit: Examples 1 and 3 above are missing parenthes so result is incorrect. New results + `truth()` function as ShadowRanger suggested.

``````%timeit  (not a) ^  (not b)   # 47 ns
%timeit  (not a) != (not b)   # 44.7 ns
%timeit truth(a) != truth(b)  # 116 ns
%timeit  bool(a) != bool(b)   # 190 ns
``````
• That's 100 ns of my life I won't get back ;-)
– Arel
Jul 25, 2019 at 14:13
• For an in-between timing, you can do `from operator import truth` at the top of the module, and test `truth(a) != truth(b)`. `bool` being a constructor has a lot of unavoidable overhead at the C level (it must accept arguments as the equivalent of `*args, **kwargs` and parse the `tuple` and `dict` to extract them), where `truth` (being a function) can use an optimized path that doesn't require either a `tuple` or a `dict`, and runs in about half the time of `bool` based solutions (but still longer than `not` based solutions). Sep 26, 2019 at 18:19
• Which version of which Python implementation does this refer to? Jul 22, 2021 at 7:26
• @LutzPrechelt unfortunately I don't remember; Probably 3.5 Jul 24, 2021 at 21:18

Python has a bitwise exclusive-OR operator, it's `^`:

``````>>> True ^ False
True
>>> True ^ True
False
>>> False ^ True
True
>>> False ^ False
False
``````

You can use it by converting the inputs to booleans before applying xor (`^`):

``````bool(a) ^ bool(b)
``````

(Edited - thanks Arel)

• Your answer should make clear that `^` is a bitwise xor (not logical xor like the question asked). `bool(2) ^ bool(3)` gives a different answer than `bool(2 ^ 3)`.
– Arel
Jul 18, 2019 at 14:08
• @Arel But that's not the case. `a ^ b` is polymorph. If `a` and `b` are `bool` instances, the result will be `bool` as well. This behavior can hardly be called a "bitwise" xor.
– Alfe
Aug 15, 2019 at 10:19
• @Alfe the important point is that values must be cast to booleans first. The Python documentation defines `^` as bitwise, even though it's an interesting point that types are preserved for `bool` and `int` types. Note: `True ^ 2` is `3`, demonstrating how it is indeed bitwise.
– Arel
Aug 17, 2019 at 6:03
• @Arel Yes, the `bool ^ int` case is kind of casting everything to `int` first. Still, Python has built-in the `^` operator for many bits in `int` and for the one bit represented in a `bool`, so both are bitwise, but the bitwise xor for a single bit just is the logical xor for booleans.
– Alfe
Aug 19, 2019 at 11:52
• I always hate using this operator, although I understand it is `xor`, coming from an engineering background, to me this instinctively feels like a mathematical power, ie `2^3 = pow(2,3)` which means I always explicitly comment to prevent confusion. Sep 8, 2019 at 23:52

Simple, easy to understand:

``````sum(bool(a), bool(b)) == 1
``````

If an exclusive choice is what you're after, i.e. to select `1` choice out of `n`, it can be expanded to multiple arguments:

``````sum(bool(x) for x in y) == 1
``````
• `sum(map(bool, y)) % 2 == 1` Sep 7, 2019 at 14:10
• I see little reason to use `sum` if you just have 2 variables, `bool(a) + bool(b) == 1` does the same thing. Feb 14, 2021 at 20:54
• @Boris Potayto potarto
– c z
Aug 18, 2021 at 9:54
• @cz I'm glad that you agree that one is clearly wrong :) Aug 18, 2021 at 20:25

To get the logical xor of two or more variables in Python:

1. Convert inputs to booleans
2. Use the bitwise xor operator (`^` or `operator.xor`)

For example,

``````bool(a) ^ bool(b)
``````

When you convert the inputs to booleans, bitwise xor becomes logical xor.

Note that the accepted answer is wrong: `!=` is not the same as xor in Python because of the subtlety of operator chaining.

For instance, the xor of the three values below is wrong when using `!=`:

``````True ^  False ^  False  # True, as expected of XOR
True != False != False  # False! Equivalent to `(True != False) and (False != False)`
``````

(P.S. I tried editing the accepted answer to include this warning, but my change was rejected.)

As I don't see the simple variant of xor using variable arguments and only operation on Truth values True or False, I'll just throw it here for anyone to use. It's as noted by others, pretty (not to say very) straightforward.

``````def xor(*vars):
result = False
for v in vars:
result = result ^ bool(v)
return result
``````

And usage is straightforward as well:

``````if xor(False, False, True, False):
print "Hello World!"
``````

As this is the generalized n-ary logical XOR, it's truth value will be True whenever the number of True operands is odd (and not only when exactly one is True, this is just one case in which n-ary XOR is True).

Thus if you are in search of a n-ary predicate that is only True when exactly one of it's operands is, you might want to use:

``````def isOne(*vars):
result = False
for v in vars:
if result and v:
return False
else:
result = result or v
return result
``````
• For improving this answer: `(bool(False) is False) == True`. You can just use `False` on those lines. Apr 25, 2015 at 6:01

Anoder idea... Just you try the (may be) pythonic expression «is not» in order to get behavior of logical «xor»

The truth table would be:

``````>>> True is not True
False
>>> True is not False
True
>>> False is not True
True
>>> False is not False
False
>>>
``````

And for your example string:

``````>>> "abc" is not  ""
True
>>> 'abc' is not 'abc'
False
>>> 'abc' is not ''
True
>>> '' is not 'abc'
True
>>> '' is not ''
False
>>>
``````

However; as they indicated above, it depends of the actual behavior you want to pull out about any couple strings, because strings aren't boleans... and even more: if you «Dive Into Python» you will find «The Peculiar Nature of "and" and "or"» http://www.diveintopython.net/power_of_introspection/and_or.html

Sorry my writed English, it's not my born language.

Regards.

• I also use to read it as "strictly different". That's because some languages use to implement the operation bit by bit of the binary representation and take the bool of the resulting bitwise operation. I guess your answer is more "type-bulletproofed" because it extends beyond the boolean space. Mar 28, 2019 at 17:23
• I mean the fact that your answer cover the case of comparing None, False, '' as different is the distinctive stuff. For example: bool(False) != bool('') nevertheless False is not ''" agrees more with this semantics of "strictly different" Mar 28, 2019 at 17:24

Given that A and B are bools.

``````A is not B
``````

I know this is late, but I had a thought and it might be worth, just for documentation. Perhaps this would work:`np.abs(x-y)` The idea is that

1. if x=True=1 and y=False=0 then the result would be |1-0|=1=True
2. if x=False=0 and y=False=0 then the result would be |0-0|=0=False
3. if x=True=1 and y=True=1 then the result would be |1-1|=0=False
4. if x=False=0 and y=True=1 then the result would be |0-1|=1=True
• You could even drop the `abs`, python interprets negative numbers as truthy, although this is very obscure imo (what does `if (x > 1) - (y > 3)` mean? Oct 3, 2020 at 14:04

You use the same XOR operator like in C, which is `^`.

I don't know why, but the most upvoted solution suggests `bool(A) != bool(B)`, while I would say - in conformity with C's `^`'s operator, the most obvious solution is:

``````bool(A) ^ bool(B)
``````

which is more readable and immediately understandable for anyone coming from `C` or any `C`-derived language ...

when doing code-golfing, probably

``````not A ^ (not B)
``````

will be the winner. with `not` as converter for boolean (one letter less than `bool()`. And for the first expression in some cases one can leave out the parantheses. Well, it depends, in cases where one has to do `not(A) ^ (not(B))`, the `bool()` needs same amount of letters ...

• `not not A` is another way to get the same result as `bool(A)` without a function call. Dec 20, 2021 at 15:44

Exclusive Or is defined as follows

``````def xor( a, b ):
return (a or b) and not (a and b)
``````
• that would return True for xor('this', '') and to follow python's way, it should return 'this'. Jan 11, 2009 at 13:45
• @nosklo: Take it up with the BDFL, please, not me. Since Python returns True, then that must be Python's way. Jan 11, 2009 at 14:15
• I mean for consistency with the other python logical operators - Python doesn't return True when I do ('this' or ''), it returns 'this'. But in your function xor('this', '') returns True. It should return 'this' as the "or" python builtin does. Jan 11, 2009 at 15:09
• Python `and` and `or` do short-circuit. Any `xor` implementation can't short-circuit, so there is already a discrepancy; therefore, there is no reason that `xor` should operate like `and`+`or` do.
– tzot
Jan 11, 2009 at 23:12

Some of the implementations suggested here will cause repeated evaluation of the operands in some cases, which may lead to unintended side effects and therefore must be avoided.

That said, a `xor` implementation that returns either `True` or `False` is fairly simple; one that returns one of the operands, if possible, is much trickier, because no consensus exists as to which operand should be the chosen one, especially when there are more than two operands. For instance, should `xor(None, -1, [], True)` return `None`, `[]` or `False`? I bet each answer appears to some people as the most intuitive one.

For either the True- or the False-result, there are as many as five possible choices: return first operand (if it matches end result in value, else boolean), return first match (if at least one exists, else boolean), return last operand (if ... else ...), return last match (if ... else ...), or always return boolean. Altogether, that's 5 ** 2 = 25 flavors of `xor`.

``````def xor(*operands, falsechoice = -2, truechoice = -2):
"""A single-evaluation, multi-operand, full-choice xor implementation
falsechoice, truechoice: 0 = always bool, +/-1 = first/last operand, +/-2 = first/last match"""
if not operands:
raise TypeError('at least one operand expected')
choices = [falsechoice, truechoice]
matches = {}
result = False
first = True
value = choice = None
# avoid using index or slice since operands may be an infinite iterator
for operand in operands:
# evaluate each operand once only so as to avoid unintended side effects
value = bool(operand)
# the actual xor operation
result ^= value
# choice for the current operand, which may or may not match end result
choice = choices[value]
# if choice is last match;
# or last operand and the current operand, in case it is last, matches result;
# or first operand and the current operand is indeed first;
# or first match and there hasn't been a match so far
if choice < -1 or (choice == -1 and value == result) or (choice == 1 and first) or (choice > 1 and value not in matches):
# store the current operand
matches[value] = operand
# next operand will no longer be first
first = False
# if choice for result is last operand, but they mismatch
if (choices[result] == -1) and (result != value):
return result
else:
# return the stored matching operand, if existing, else result as bool
return matches.get(result, result)

testcases = [
(-1, None, True, {None: None}, [], 'a'),
(None, -1, {None: None}, 'a', []),
(None, -1, True, {None: None}, 'a', []),
(-1, None, {None: None}, [], 'a')]
choices = {-2: 'last match', -1: 'last operand', 0: 'always bool', 1: 'first operand', 2: 'first match'}
for c in testcases:
print(c)
for f in sorted(choices.keys()):
for t in sorted(choices.keys()):
x = xor(*c, falsechoice = f, truechoice = t)
print('f: %d (%s)\tt: %d (%s)\tx: %s' % (f, choices[f], t, choices[t], x))
print()
``````

Sometimes I find myself working with 1 and 0 instead of boolean True and False values. In this case xor can be defined as

``````z = (x + y) % 2
``````

which has the following truth table:

``````     x
|0|1|
-+-+-+
0|0|1|
y -+-+-+
1|1|0|
-+-+-+
``````

Many folks, including myself, need an `xor` function that behaves like an n-input xor circuit, where n is variable. (See https://en.wikipedia.org/wiki/XOR_gate). The following simple function implements this.

``````def xor(*args):
"""
This function accepts an arbitrary number of input arguments, returning True
if and only if bool() evaluates to True for an odd number of the input arguments.
"""

return bool(sum(map(bool,args)) % 2)
``````

Sample I/O follows:

``````In : xor(False, True)
Out: True

In : xor(True, True)
Out: False

In : xor(True, True, True)
Out: True
``````

``````(not b and a) or (not a and b)
``````

will give `a` if `b` is false
will give `b` if `a` is false
will give `False` otherwise

Or with the Python 2.5+ ternary expression:

``````(False if a else b) if b else a
``````

Xor is `^` in Python. It returns :

• A bitwise xor for ints
• Logical xor for bools
• An exclusive union for sets
• User-defined results for classes that implements `__xor__`.
• TypeError for undefined types, such as strings or dictionaries.

If you intend to use them on strings anyway, casting them in `bool` makes your operation unambiguous (you could also mean `set(str1) ^ set(str2)`).

This is how I would code up any truth table. For xor in particular we have:

``````| a | b  | xor   |             |
|---|----|-------|-------------|
| T | T  | F     |             |
| T | F  | T     | a and not b |
| F | T  | T     | not a and b |
| F | F  | F     |             |
``````

Just look at the T values in the answer column and string together all true cases with logical or. So, this truth table may be produced in case 2 or 3. Hence,

``````xor = lambda a, b: (a and not b) or (not a and b)
``````

It's easy when you know what XOR does:

``````def logical_xor(a, b):
return (a and not b) or (not a and b)

test_data = [
[False, False],
[False, True],
[True, False],
[True, True],
]

for a, b in test_data:
print '%r xor %s = %r' % (a, b, logical_xor(a, b))
``````

This gets the logical exclusive XOR for two (or more) variables

``````str1 = raw_input("Enter string one:")
str2 = raw_input("Enter string two:")

any([str1, str2]) and not all([str1, str2])
``````

The first problem with this setup is that it most likely traverses the whole list twice and, at a minimum, will check at least one of the elements twice. So it may increase code comprehension, but it doesn't lend to speed (which may differ negligibly depending on your use case).

The second problem with this setup is that it checks for exclusivity regardless of the number of variables. This is may at first be regarded as a feature, but the first problem becomes a lot more significant as the number of variables increases (if they ever do).

XOR is implemented in `operator.xor`.

• operator.xor corresponds to the bitwise operation, which it the one that the original poster doesn't want. May 7, 2012 at 12:30
• @kojiro evidently so!
– Arel
Jul 25, 2019 at 14:16

Just because I haven't seen it mentioned elsewhere, this also does the trick:

``````def logical_xor(a, b):
return not b if a else bool(b)
``````

I'm not sure if it's "better"/more readable/more pythonic than the accepted solution bool(a) != bool(b).

The way that Python handles logic operations can be confusing, so my implementation gives the user the option (by default) of a simple True/False answer. The actual Python result can be obtained by setting the optional third arg to None.

``````def xor(a, b, true=True, false=False): # set true to None to get actual Python result
ab1 = a and not b
ab2 = not a and b
if bool(ab1) != bool(ab2):
return (ab1 or ab2) if true is None else true
else:
return false
``````

Here's a generalization.

``````def xor(*orands):
return sum(bool(x) for x in orands) == 1
``````

You can test it with

``````# test
from itertools import product
for a, b, c in product((False, True), repeat=3):
print(f'{int(a)}{int(b)}{int(c)}|{xor(a,b,c)}')
``````

Output:

000|False
001|True
010|True
011|False
100|True
101|False
110|False
111|False

We can easily find xor of two variables by the using:

``````def xor(a,b):
return a !=b
``````

Example:

xor(True,False) >>> True

• or `xor("hey", "there")` >>> True, but that's not what we want Dec 11, 2018 at 9:35