# Must &= always be interpreted as an operator?

I was coding and accidentally left out a space between a constant reference and its default value. I was surprised to see that it came up as an error in Intellisense, so I compiled it, and sure enough, it doesn't work in GCC 4.3.4, 4.5.1, or 4.7.2, and doesn't work in Visual Studio 2012, either.

Here's an equivalent sample that demonstrates the error:

``````struct S {
S(const int &= 5){}
};

int main(){}
``````

This yields the following error in GCC, and similar ones in MSVC:

error: expected ',' or '...' before '&=' token

I presume this is because `&=` is being treated as an operator, but I don't know exactly what to search for in the standard to find more information about this case. &= just comes up with operator-specfic information.

Being curious, I decided to swap it out for an rvalue reference:

``````S(int &&= 5){}
``````

Strangely enough, this compiles fine on both GCC 4.7.2 and MSVC, which means that &= isn't always lexically paired as an operator.

Why does it work with an rvalue reference, but not an lvalue reference, and what does the standard have to say on the matter?

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Just as a side note, `S(const int & x= 5){}` would work. I think you already know that though. Good question. Waiting forward to an answer. –  Luchian Grigore Nov 29 '12 at 20:56
@LuchianGrigore, Yes, it does. That's what I was going for when I mistyped this :) –  chris Nov 29 '12 at 20:57
It is not being treated as an operator, it is just different token-wise. –  Pubby Nov 29 '12 at 21:07
The `&` in `&=` is a bitwise operator, not a reference qualifier. –  Pete Becker Nov 29 '12 at 21:09

This is generally known as the "principle of longest match", or the "maximal munch". Because `&&` is a valid token and `&&=` is not (there's no compound-assignment notation for `&&`), the longest token that `&&=` starts with is `&&`; after that's been removed, there's no opportunity for `&=` to be seen as a single token.

This principle is common to many languages, though there are often exceptions to it. For example, in C++11, `>>` will be analyzed as `>` followed by `>` in a context like `std::vector<std::vector<int>>`.

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Does this mean we might see an addendum for `&=` just like we did with `>>` when used with templates? –  chris Nov 29 '12 at 21:05
@chris unlikely since `>>` was just ugly and annoying, and `&=` in argument lists would be `& =` (spaces around `=`) in any respectable code style. –  rightfold Nov 29 '12 at 21:06
@chris: unlikely, since we still have problems with `>>>`. –  ybungalobill Nov 29 '12 at 21:07
@chris: I wouldn't expect that, but I really don't know. From what I understand, a major factor motivating the change with `>>` was that compilers were recognizing it anyway for the sake of giving useful error-messages: so it was already being implemented as a special case, just a special case that didn't work. That doesn't seem to be happening with `&=`. –  ruakh Nov 29 '12 at 21:09
Unused/unnamed rvalue-ref parameter with default value of 5? –  jrok Nov 29 '12 at 21:19

The parser just works left to right, regardless of associativity, so in the first example, the first full token it finds is the `&=`. (At that moment, the parser doesn't check for larger constructs yet, so all it knows is that there's that token there.)

In the second example, the token it finds is `&&`. Because `&&=` is not a token!

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