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Consider the following code:

class Foo;

Foo& CreateFoo();


void Bar()
{
   CreateFoo();
}

In Visual Studio this will result in an error C2027 that Foo is an undefined type. In most other compilers it compiles fine. It is only an issue if the return value of CreateFoo is not assigned. If I change the line to:

Foo& foo = CreateFoo();

it compiles fine in Visual Studio. Also if Foo is defined rather than just forward-declared, then it will compile fine with no assignment.

Which should be the correct behavior? Is there anything in the C++ standard that addresses this, or is this something that is left to the implementation? I looked and didn't see anything that talks about this.

Update: A bug report has been filed.

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Which version of the Visual C++ compiler? Compliance changes pretty dramatically between versions. –  Ben Voigt Aug 11 '12 at 1:28
    
This looks like a Visual C++ compiler bug (I agree with Ben Voigt's analysis of the specification, and the difference in behavior between CreateFoo(); and Foo& foo = CreateFoo(); is weird). I don't see an existing bug for this issue, and it does repro with Visual C++ 2012. If the issue is important to you, please consider opening a bug on Microsoft Connect and posting a link here for future reference. Thank you! –  James McNellis Aug 11 '12 at 1:28
    
There was a bug report filed on it for VS2010, but it was marked nofix because it was a documented limitation. They didn't proffer an opinion as to whether it was compliant or not. The MSDN page for C2027 in VS2010 shows the same type of issue. msdn.microsoft.com/en-us/library/6c2dk0ah.aspx See the last section. It actually says references to undefined types are not allowed, but that is not true, it only appears to be when it is unassigned return values, which is the case in their example code. –  Gerald Aug 11 '12 at 1:34
    
@Gerald : Would you mind posting a link to the VS2010 bug report? –  ildjarn Aug 11 '12 at 2:53
1  
nobugz posts here as @HansPassant, maybe he knows something we don't, so here's hoping this lures him here. ;-] –  ildjarn Aug 14 '12 at 0:55

2 Answers 2

up vote 6 down vote accepted

This looks like the relevant part of the Standard (section 5.2.2):

A function call is an lvalue if the result type is an lvalue reference type or an rvalue reference to function type, an xvalue if the result type is an rvalue reference to object type, and a prvalue otherwise.

If a function call is a prvalue of object type:

  • if the function call is either

    • the operand of a decltype-specifier or

    • the right operand of a comma operator that is the operand of a decltype-specifier,

    a temporary object is not introduced for the prvalue. The type of the prvalue may be incomplete. [ Note: as a result, storage is not allocated for the prvalue and it is not destroyed; thus, a class type is not instantiated as a result of being the type of a function call in this context. This is true regardless of whether the expression uses function call notation or operator notation (13.3.1.2). — end note ] [ Note: unlike the rule for a decltype-specifier that considers whether an id-expression is parenthesized (7.1.6.2), parentheses have no special meaning in this context. — end note ]

  • otherwise, the type of the prvalue shall be complete.

Since this function result type is an lvalue reference type, the function call evaluates to an lvalue, and the completeness requirement does not apply.

The code is legal, at least in C++11, which no released version of Visual C++ implements fully.

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Thanks, that's about what I thought but couldn't pin it down. –  Gerald Aug 11 '12 at 1:37

You can always use incomplete types in function declarations (since that only declares a signature of the function, not any real code), but not when you use it.

Calling CreateFoo(); is equals to (void) CreateFoo();, and my guess is that Visual Studio needs to inspect the code of Foo to do ANY conversion (I'm not sure if you can actually write a void conversion), because, for conversions you need a complete type.

As for Foo & foo = CreateFoo();, this does not do any conversions, so you can get away with having an incomplete type.

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Thanks, that does shine a little light on why VS doesn't handle it. Doing Foo& foo = CreateFoo(); (void)foo; results in the same error. This would seem to indicate that it is indeed a non-compliance issue, since the standard states: "Any expression can be explicitly converted to type cv void, in which case it becomes a discarded-value expression". –  Gerald Aug 11 '12 at 2:14

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