How come C# doesn't have a conditional XOR operator?


true  xor false = true
true  xor true  = false
false xor false = false
  • 17
    How does != work as a substitute? Jun 28, 2011 at 14:14
  • 47
    C# does have an xor operator ( x ^ y ). I therefore deny the premise of the question. Can you explain why you believed that C# does not have an xor operator? I am interested to learn why people believe false things about C#. Jun 28, 2011 at 14:15
  • 4
    @Eric Lippert: I think he's referring to logical operators (& | ^) vs conditional operators (&& ||). But you're right (of course), there is a logical XOR...
    – BoltClock
    Jun 28, 2011 at 14:15
  • 14
    @BoltClock: Oh, if the question is "why is there no short-circuiting xor operator?" -- how could there be? With "and" if the first argument is false you don't need to evaluate the second. With "or", if the first argument is true then you don't need to evaluate the second. You always need to evaluate both arguments for xor, so there is no short circuiting possible. Jun 28, 2011 at 14:18
  • 6
    The question itself is one better suited to Microsoft - and so that's a decent reason to downvote - but if whoever downvoted it did so because of the ^ operator, then you need to read with more attention to detail, because the question was conditional vs. logical, not simply "why isn't there an XOR". Jun 28, 2011 at 14:21

12 Answers 12


Conditional xor should work like this:

true xor false = true
true xor true = false
false xor true = true
false xor false = false

But this is how the != operator actually works with bool types:

(true != false) // true
(true != true) // false
(false != true) // true
(false != false) // false

So as you see, the nonexistent ^^ can be replaced with existing !=.

  • 56
    This is actually the only answer that addresses the question directly and correctly.
    – usr
    Mar 22, 2013 at 14:31
  • 50
    I am sitting here facepalming myself that I didn't realize != would work for this.
    – AdamMc331
    Aug 19, 2015 at 15:49
  • 2
    The answer is correct but the comments aren't. It does not address the question, which is "why doesn't C# have a conditional XOR?". Strictly speaking this isn't a logical operator, it's a relational equality operator. While the result is the same as XOR, it is in a different class. It only compares to XOR when testing two boolean values, and both sides of the operator still must be evaluated. May 17, 2017 at 2:22
  • 3
    @TheEvilGreebo - What you say is true; the != operator is not technically a conditional XOR operator. However, this answer effectively says, "A conditional XOR operator doesn't exist because the != operator does." That's how I read it, anyway.
    – Syndog
    May 22, 2017 at 17:33
  • 6
    I think pretty much every one ended up to this post actually wanted to write XOR on Booleans. like there is logical AND and OR but nothing as XOR. or at least we didn't realize != :) @TheEvilGreebo Dec 26, 2017 at 13:47

In C#, conditional operators only execute their secondary operand if necessary.

Since an XOR must by definition test both values, a conditional version would be silly.


  • Logical AND: & - tests both sides every time.

  • Logical OR: | - test both sides every time.

  • Conditional AND: && - only tests the 2nd side if the 1st side is true.

  • Conditional OR: || - only test the 2nd side if the 1st side is false.

  • 49
    An XOR operator would not violate the convention "conditional operators only execute their secondary operand if necessary". It would just always be necessary. Dec 18, 2015 at 21:57
  • 2
    Conditional XOR could be a nice and elegant shortcut for some particular patterns, although not sure if justified enough to include it in the language. An example of such patterns where XOR might prove useful, is Conditional Negation: When a Boolean expression should be negated or not, given a second boolean expression. May 5, 2016 at 22:21
  • 1
    Haven't responded to this in some time but to respond to popular comment by @KhyadHalda : Why would you ever build something you know would never be used? You'd be deliberately writing dead code. May 15, 2017 at 18:47
  • 2
    How, ever, would a conditional XOR ever be useful? A conditional XOR cannot ever evaluate without comparing both sides to determine that they are or are not equal. Even the notion of a conditional XOR comparing two bools must still check the value of each bool and test the equality. May 28, 2017 at 22:35
  • 1
    It's as silly as a conditional addition operator. Why not make another operator for conditional addition, where (a+b) only evaluates b when b is necessary? Just like with conditional XOR, this wouldn't violate the convention of conditional operators, it's just that the second argument would always be necessary. There's no use case for this ever. And I'm not just being pedantic with this example -- the XOR operation is essentially a 1-bit addition.
    – Kevin Holt
    May 15, 2019 at 21:16

There is the logical XOR operator: ^

Documentation: C# Operators and ^ Operator

The documentation explicitly states that ^, when used with boolean operands, is a boolean operator.

"for the bool operands, the ^ operator computes the same result as the inequality operator !=".

(And as noted in another answer, that's exactly what you want).

You can also bitwise-xor integer operands with ^.

  • 3
    Logical, not conditional. Logical and = &, conditional and = &&. He's asking about Conditional. Jun 28, 2011 at 14:16
  • 3
    It is binary, not logical. It assumes that bools are either 0 or 1 which is not true on the CLR.
    – usr
    Mar 22, 2013 at 14:29
  • 3
    sorry, this answer does not actually answer the question about CONDITIONAL operators. this is a bit opperator Apr 14, 2017 at 16:14
  • 5
    For the record, the documentation linked in this answer explicitly states that ^, when used with boolean operands, is a boolean operator. "for the bool operands, the ^ operator computes the same result as the inequality operator !=". You can also bitwise-xor integer operands with ^. C# is not C. May 17, 2019 at 13:31

Just as a clarification, the ^ operator works with both integral types and bool.

See MSDN's ^ Operator (C# Reference):

Binary ^ operators are predefined for the integral types and bool. For integral types, ^ computes the bitwise exclusive-OR of its operands. For bool operands, ^ computes the logical exclusive-or of its operands; that is, the result is true if and only if exactly one of its operands is true.

Maybe the documentation has changed since 2011 when this question was asked.

  • 2
    been programming in c# a long time, never knew this! thanks @RichardCL ! Apr 14, 2017 at 16:19
  • This is good information but seems more appropriate as a comment or edit to the other answer that mentions ^ and predates this one by five years. I doubt anything has changed.
    – Chris
    Jul 30, 2019 at 19:49

As asked by Mark L, Here is the correct version:

 Func<bool, bool, bool> XOR = (X,Y) => ((!X) && Y) || (X && (!Y));

Here is the truth table:

 X | Y | Result
 0 | 0 | 0
 1 | 0 | 1
 0 | 1 | 1
 1 | 1 | 0

Reference: Exclusive OR

  • 3
    The question asked was WHY doesn't C# have a conditional XOR operator. This does not answer the question. As to the function itself: this function does operate as conditional XOR - however the question is, is it more efficient than the non-conditional XOR? In order to test for exclusive truth, XOR must confirm that one and exactly one result is true. This means both sides must be evaluated and compared. The function above tests both sides of an and condition while inverting one value, at a minimum. Do we know internally if this is any different than XOR? May 31, 2017 at 12:27

Oh yes, it does.

bool b1 = true;
bool b2 = false;
bool XOR = b1 ^ b2;
  • 2
    It is a binary operator, not a logical one. It assumes that bools are either 0 or 1 which is not true on the CLR. So this code can actually fail to work.
    – usr
    Mar 22, 2013 at 14:30
  • 8
    @usr, In C#, the ^ operator is logical when applied to two Boolean operands. You commented an awful lot through these answers, did you ever run any code to test your hypothesis?
    – Marc L.
    Mar 28, 2014 at 21:26
  • 3
    @MarcL. I did: pastebin.com/U7vqpn6G Prints true, although true ^ true is supposed to be false. bool is not always equal to 0 or 1. It is not a logical type on the CLR. It is an 8 bit quantity with arbitrary contents. I could have generated verifiable IL to demonstrate the issue as well.
    – usr
    Mar 28, 2014 at 22:42
  • 1
    @usr, okay, so you've managed to show the logical operators appear to act on Booleans by applying bitwise to the underlying 8-bit value--for the record, CreateBool(1) & CreateBool(2) will also yield False. And that this is not sufficient if the CLR is roughed up a bit. But, as fun as this has been, in what scenario (where one hasn't plainly abused the CLR) does this distinction make any difference whatsoever?
    – Marc L.
    Mar 29, 2014 at 5:23
  • 2
    When using other CLR languages than C# for example. I repeat: I could have used ILASM to create a fully verifiable, safe assembly that does this (at the IL level a boolean value is just an i1, just like a byte is). This is 100% defined and safe managed behavior. The CLR is not roughed-up.; The first time I saw this behavior was when using Microsoft Pex.
    – usr
    Mar 29, 2014 at 10:11

Conditional xor doesn't exist, but you can use logical one because xor is defined for booleans, and all conditional comparisons evaluate to booleans.

So you can say something like:

if ( (a == b) ^ (c == d))

  • 1
    It is a binary operator, not a logical one. It assumes that bools are either 0 or 1 which is not true on the CLR. So this code can actually fail to work.
    – usr
    Mar 22, 2013 at 14:30
  • 3
    @Spencevail you probably were not thinking about the case that a non-false boolean might not have integer representation 1. This is a little known fact. You can end up in a situation where the xor of two non-false booleans is still non-false! That said in this particular code the xor operator is only ever applied to values in [0,1] so that my comment does not (fully) apply.
    – usr
    Mar 30, 2015 at 16:09
  • 1
    @Spencevail that is exactly the case that can fail. It is possible to create a safe managed code function CreateBool(byte) that converts a byte into a bool of the same bits. Then, CreateBool(1) ^ CreateBool(2) is true, but CreateBool(1) is true and CreateBool(2) is true as well! & is also vulnerable.
    – usr
    Mar 30, 2015 at 19:27
  • 1
    Actually, I just reported a RyuJIT bug because they did not consider this possibility and compiled && as if it were & which is a miscompilation.
    – usr
    Mar 30, 2015 at 19:31
  • 1
    @ryanwebjackson Maybe I should but since the vote counts are so high, nobody would see it... The 2nd highest answer is correct. It's simply the != operator :)
    – usr
    Aug 31, 2021 at 7:02

While there is a logical xor operator ^, there is no conditional xor operator. You can achieve a conditional xor of two values A and B using the following:

A ? (!B) : B

The parens are not necessary, but I added them for clarity.

As pointed out by The Evil Greebo, this evaluates both expressions, but xor cannot be short circuited like and and or.

  • What's the difference between a logican ^ and a conditional ^ ? oO Jun 28, 2011 at 14:28
  • @Armen Tsirunyan The logical operators perform bitwise operations in types where that makes sense while the conditional operators operate on boolean values and return a boolean result. Considering boolean values: 0101 ^ 0011 has the value 0110.
    – jimreed
    Jun 28, 2011 at 14:42
  • 3
    no, you are completely wrong. there are both types of XOR's (they're called bitwise and logical, respectively) in C#. Both use the ^ symbol. Jun 28, 2011 at 15:10

you can use:

a = b ^ c;

just like in c/c++


There is no such thing as conditional (short-circuiting) XOR. Conditional operators are only meaningful when there's a way to definitively tell the final outcome from looking at only the first argument. XOR (and addition) always require two arguments, so there's no way to short-circuit after the first argument.

If you know A=true, then (A XOR B) = !B.

If you know A=false, then (A XOR B) = B.

In both cases, if you know A but not B, then you don't know enough to know (A XOR B). You must always learn the values of both A and B in order to calculate the answer. There is literally no use case where you can ever resolve the XOR without both values.

Keep in mind, XOR by definition has four cases:

false xor true  = true
true  xor false = true
true  xor true  = false
false xor false = false

Again, hopefully it's obvious from the above that knowing the first value is never enough to get the answer without also knowing the second value. However, in your question, you omitted the first case. If you instead wanted

false op true  = false (or DontCare)
true  op false = true
true  op true  = false
false op false = false

then you can indeed get that by a short-circuiting conditional operation:

A && !B

But that's not an XOR.

  • I’m not seeing anything in this answer that isn’t in at least one answer above. I don’t see any indication that your short-circuitable un-xor is what OP was looking for, since he accepted an answer which assumes he wanted proper xor. May 16, 2019 at 1:04
  • Mine is literally the only answer suggested so far that can produce the OP's requested truth table without evaluating the second argument.
    – Kevin Holt
    May 17, 2019 at 4:56
  • Also the OP asked why there is no conditional XOR, and while the answers above do say correctly that it's because XOR requires two arguments, IMO the answers above didn't seem to say sufficiently explain WHY does XOR actually need two arguments. Obviously you feel otherwise, but to me it was apparent from the various comments on this page that the basic two-argumentness of XOR hadn't been fully explained to a complete beginner yet.
    – Kevin Holt
    May 17, 2019 at 5:21
  • 1
    You talked me into it. May 17, 2019 at 13:37
  • @Kevin Holt - Logical XOR is meaningful if you need one of the conditions to be true but not both. That you have to evaluate both conditions doesn't matter. The short circuit thing is a low level detail that you only have to worry about when dealing with performance critical code (control flow is slow). I'd be more concerned with what 'exclusive or' is supposed to mean when making a logical operator out of it. Namely, have it operate like the bitwise version (like the other operators), or make it an or that's exclusive (as many conditions as you want, but only one can be true).
    – Thorham
    Oct 4, 2019 at 13:35

NOTE: I know XOR and XNOR are bitwise operations, but considering the thing we are questioning here...

Ain't this work as conditional (boolean) XOR?

bool Xor(bool a, bool b){ return a != b }
a b x
False False False
False True True
True False True
True True False

Also I believe you can loop though data, aggregate them to use more than two operator. and still get the same result as Bitwise of Nth operand in same conditional manner


This question has been affectively answered, but I came across a different situation. It's true that there is no need for a conditional XOR. It's also true that the ^ operator can be used. However, if you need to only test the "true || false" status of the operands then ^ can lead to trouble. For example:

void Turn(int left, int right)
    if (left ^ right)
        //success... turn the car left or right...
        //error... no turn or both left AND right are set...

In this example, if left is set to 10 (0xa) and right is set to 5 (0x5) the "success" branch is entered. For this (simplistic if silly) example, this would result in a bug since you shouldn't turn left AND right at the same time. What I gathered from the questioner is not that he actually wanted a conditional, but a simple way to perform the true/false on the values as passed to the xor.

A macro could do the trick:

#define my_xor(a, b) ( ((a)?1:0) ^ ((b)?1:0) )

Feel free to slap me around if I'm off the mark :o)

I read jimreed's answer below after I posted this (bad Yapdog!) and his is actually simpler. It would work and I have absolutely no idea why his answer was voted down...

  • 3
    This is a C# question, not C/C++. if requires a Boolean expression, it won't even compile with an int.
    – Marc L.
    Mar 28, 2014 at 21:24

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