So I am confused here, does : is
a ^= b^c
a = a ^ (b ^ c)
or is it
a = (a ^ b) ^ c?
Any short form operator:
works very much like:
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
So it's the former, i.e.
"C and C++" covers a lot of ground, but taking one example, the C99 standard says (188.8.131.52):
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):
Note that only the C standard bothers to include the necessary parentheses to directly answer your question: it's nominally
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
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
Think about the XOR truth table, try it out, does it even matter?
So if you had say
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
There is no operator precedence here. Your question is about associativity, and as the operator is associative it doesn't make any difference.