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It's often mooted (indeed I think even the standard alludes to it), that a @= b and a = a @ b are equivalent. Here I'm using @ to stand in for a range of symbols such as & and ^.

However I doubt that they are equivalent at run-time especally if a is an atomic type. For example:

std::atomic_int a;
a ^= 1;

(which is an atomic way of toggling a) is mooted as being equivalent to

a = a ^ 1;

But, this second way is not atomic due to the assignment.

Therefore I doubt their literal equivalence and a compiler (irrespective of what the standard says) is not able to change the shorter form to the longer one.

Am I correct?

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I am pretty sure that the C++ standard says exactly what a @= b stands for, rather than allude to it. –  Pascal Cuoq Apr 25 '14 at 9:01
User-defined types are one case where these two are different. Another one is sideEffects() @= b. –  zch Apr 25 '14 at 16:06

4 Answers 4

up vote 16 down vote accepted

The language standard only defines the behavior of the built-in operators, not the "user defined" overloads. And from a language point of view, there is no built-in operator for std::atomic_int (which is formally a "user defined type"); std::atomic_int is a typedef for std::atomic<int>, which defines a number of operator@= overloads, but no simple @. So for

std::atomic_int i;
i ^= 1;

the second line becomes:

i.operator^=( 1 );

but for:

std::atomic_int i;
i = i ^ 1;

the second line becomes:

i.operator=( i.operator int() ^ 1 );

One could argue that this is part of what is implied by "the left hand argument being evaluated twice, instead of once". More generally, however, the definitions for overloaded operators are whatever the author of the operator wanted: operator+= could (as far as the language is concerned) actually subtract, even when operator+ added. (I've a couple of cases where operator+ actually does operator+=. This is not usually a good idea, and in my case, it only happens with classes specially designed for use with std::accumulate, and documented to only be used in that case.) The standard simply doesn't restrict user defined operators

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You are correct. Actually, they are not even guaranteed to be equivalent in the general non-atomic case, as a class could provided different overloads for += and + which are completely independent.

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It's a pity then that I tagged this as purely C++. In C - where you can't overload the operators - the equivalence would always hold. I won't retag since it would compromise this excellent answer. –  Bathsheba Apr 25 '14 at 9:11

The built-in operators have that equivalence, except that a @= b only evaluates a once, while a = a @ b evaluates it twice.

However, these are not the built-in operators, but overloads provided by the standard library. They are treated as separate, unrelated functions, so the compiler cannot change one into the other. (In fact, as noted in the comments, only the assignment operators are overloaded for atomic types - you would have to explicitly load and store the value to use the non-atomic form).

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Actually, it's an interesting case, because there are "user defined" operator@=, but no user defined operator@. Normally, this would be signaled as poor design, but std::atomic is a special case, where it is (IMHO, at least) justified. (The alternative would be to not provide the @= operators at all. And one could argue that this would be a better solution. I prefer the standard solution, but there are valid arguments both ways.) –  James Kanze Apr 25 '14 at 9:15

You can define ^= and ^ to do completely different things. So, no compiler can't change one to the another just if it wants

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But then you are misusing operator overloading w.r.t. best practices and do code obfuscation instead. But generally, you are not wrong. –  phresnel Apr 25 '14 at 9:07
@phresnel: it is normal for them to do different things as far as the compiler can tell. In any type where constructing an object has or may have side-effects, they'll have different behaviour. That the programmer can consider it "the same" is a higher-level concern than the compiler knows about. For an example of potential side-effects: calls to code not visible to the compiler. For an example of code (typically) not visible to the compiler: memory allocation. –  Steve Jessop Apr 25 '14 at 9:10
@SteveJessop: Of course my comment was with regards to the programmer's view. That they do different things under the hood is something I know very well :) –  phresnel Apr 25 '14 at 9:14
@phresnel In the general case, I'd agree, but std::atomic is somewhat special. (Of course, operator^ could be overloaded to return a proxy, and the operator= overloaded on this proxy. But this leads to a number of other problems.) –  James Kanze Apr 25 '14 at 9:18
And by the way: am I the only person who is bothered by the fact that std::atomic (or std::string, or whatever) is consistently called a "user defined type", even though it is in fact defined by the standard, and a "user" doesn't have the right to define it? –  James Kanze Apr 25 '14 at 9:26

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