# C++ XOR operator precendence

So I am confused here, does : is

`````` a ^= b^c
``````

equivalent to

`````` a = a ^ (b ^ c)
``````

or is it `a = (a ^ b) ^ c`?

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You know, read the documentation. –  Cheers and hth. - Alf Oct 2 '12 at 12:39
Did you try it out and see what the result is? –  Mike Oct 2 '12 at 12:39
See here. –  juanchopanza Oct 2 '12 at 12:41
It wouldn't even matter anyway. –  harold Oct 2 '12 at 12:42

Any short form operator:

``````LHS OP= RHS;
``````

works very much like:

``````LHS = LHS OP RHS;
``````

As pointed out in comments, there are differences with the number of evaluations done and so on, so if you start to have side-effects in the evaluation of `LHS`, this simple equivalence is not so simple anymore. Or equivalent. Which is why I've re-worded the above to make it less iron-clad.

So it's the former, i.e. `a = a ^ (b ^ c)`.

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@PaulR: what about it? `, c` is not part of the RHS of the xor-assignment in that expression, so LHS is `a`, RHS is `b` and unwind's equivalence holds except that there should be no semi-colon in it. More to the point, what about the questioner's expression? There, LHS is `a` and RHS is `b^c`, so according to this answer it's equivalent to `a = a ^ b^c`, but `^` associates left-to-right. You should write, `LHS = (LHS OP (RHS))`. –  Steve Jessop Oct 2 '12 at 12:54
@SteveJessop The only way to match "a ^= b, c;" to the pattern "LHS OP= RHS;" is to match "b, c" to RHS. So Paul's pedantic point is accurate ... "LHS = LHS OP RHS;" is wrong and so is "LHS = LHS OP (RHS);" –  Jim Balter Oct 2 '12 at 13:02
This is incorrect for at least two reasons. One, “LHS OP= RHS” evaluates LHS once, but “LHS = LHS OP RHS” evaluates LHS twice. Two, it fails to preserve precedence; “a *= b+c” is not equivalent to “a = a * b+c”, because the former evaluates “b+c” first but the latter evaluates “a * b” first. –  Eric Postpischil Oct 2 '12 at 13:05
@SteveJessop Now you're being pedantic; it's a question that makes a point. "it cannot correctly parse C or C++" -- and it's wrong. –  Jim Balter Oct 2 '12 at 13:07
Anyway, we sure are putting a lot of effort into a question with 7 downvotes. I'm getting a bit fed up with people who use SO as a substitute for a manual or tutorial or classroom. –  Jim Balter Oct 2 '12 at 13:13

"C and C++" covers a lot of ground, but taking one example, the C99 standard says (6.5.16.2):

A compound assignment of the form `E1 op= E2` differs from the simple assignment expression `E1 = E1 op (E2)` only in that the lvalue `E1` is evaluated only once.

In C++, operator overloading means that the first expression might be equivalent to neither of the other two depending on the types of the operands. But for built-in compound operators the same rule applies. C++03 says (5.17/7):

The behavior of an expression of the form `E1 op= E2` is equivalent to `E1 = E1 op E2` except that `E1` is evaluated only once.

Note that only the C standard bothers to include the necessary parentheses to directly answer your question: it's nominally `a ^ (b ^ c)` rather than `(a ^ b) ^ c`.

But I think we can assume that in the ad hoc BNF-like grammatical language that the C++ standard is using here, a BNF-non-terminal such as `E2` is always considered to be a subexpression of the expression it appears in. So in a case with left-to-right associativity (and all of the operators with compound-assignment version associate left-to-right), which would split `E2` such that it's no longer a sub-expression, we must mentally insert enough parentheses to prevent that.

In practice it's not going to matter for XOR, since the values are the same anyway unless you generate a trap representation along the way, and that causes a fault. This could happen on a non-2's-complement implementation of C or C++, and an implementation for which that's the case could not compute `a ^= b^c` as `a = (a^b)^c` even if it wanted to. Non-2's-complement implementations are approximately non-existent, but the standard permits them.

Importantly, `a -= b - c` is not equivalent to `a = (a - b) - c` in the case where `a`, `b`, `c` are integers. Unless `c` is equal to `0`.

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Think about the XOR truth table, try it out, does it even matter?

``````x | y | XOR
-----------
0 | 0 |  0
1 | 0 |  1
0 | 1 |  1
1 | 1 |  0
``````

So if you had say `b = 10; //1010` and `c = 7; //0111` and `a = 3; //0011`

``````b ^ c =     1010 ^ 0111 = 1101
a ^ (b^c) = 0011 ^ 1101 = 1110 (14)

a ^ b =     0011 ^ 1010 = 1001
(a^b) ^c =  1001 ^ 0111 = 1110 (14)
``````

Given your specific example, assuming no operator-overloading, and only using the associative XOR operator... it doesn't really matter.

Being a little less specific `^=` is applied first, so:

`a ^= b^c` is equivalent to `a = a ^ (b^c)`

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Question is about C++. It matters because `operator^` might be overloaded. It also matters because `^=` follows a general rule that applies to all assignment operators, not just associative ones. –  Steve Jessop Oct 2 '12 at 12:56
@SteveJessop - The question has both C and C++ tags, the operator^ can't be overloaded if both tags apply. Also the question doesn’t have the Operator-overloading tag... so the logical assumption here is non-overloaded... but you are correct so I'll make the distinction. –  Mike Oct 2 '12 at 12:59
I think you're right, the questioner isn't prepared for operator overloading, because if `operator^=` is overloaded then the first expression could be equivalent to neither of the other two. But I'm pretty sure that the question isn't really about the properties of XOR, it's intended to be about the interpretation of the compound assignment operator. –  Steve Jessop Oct 2 '12 at 13:01
@SteveJessop - Yeah, I'll give you that one, I was going at it a little too literal perhaps. Updated. –  Mike Oct 2 '12 at 13:08

There is no operator precedence here. Your question is about associativity, and as the operator is associative it doesn't make any difference.

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How come there's no precedence here? The C standard quite unambiguously states that the precedence of `^` is higher than that of `^=`. –  Alexey Frunze Oct 2 '12 at 12:52
Actually, the answer requires attendance to both precedence and associativity. That it doesn't make any difference is because `^` is commutative. –  Jim Balter Oct 2 '12 at 12:57