19

Forward declaration lets us postpone defining an actual type till the implementation file. This is allowed in the header for pointers or references to a forward declared type.

I have been told that:

Returning by value does not require the type definition. A forward declaration is sufficient

Can someone confirm or deny this with an actual quote from the standard? I was under the impression that this was not legal.

6
  • 8
    Can you be clear what you think is not legal, exactly? Like, an actual code sample you think is illegal? Jan 31, 2017 at 20:25
  • 1
    That applies to function declarations, not definitions. And no, it isn't a quote from the standard. Jan 31, 2017 at 20:40
  • 4
    Perhaps I should have said "Returning by value does not require the type definition when you declare the function. A forward declaration is sufficient." You do need the definition when you define the function and when you call it. Jan 31, 2017 at 20:44
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    By the way, this applies to the parameters, too. You can try it in any compiler. I just struggle to find the exact confirmation in the standard. Jan 31, 2017 at 20:45
  • 3
    "Forward declaration lets us postpone declaring an actual type till the implementation file" No it doesn't. The clue's in the name; you're declaring your type right there. Jan 31, 2017 at 21:00

1 Answer 1

33

Returning by value does not require the type definition. A forward declaration is sufficient

Declaring a function that returns by value does not require the type definition. A well-formed demo:

struct S;
S foo();
struct S {};
int main() {
    foo();
}
S foo() {
   return {};
}

Defining or calling a function that returns by value does require the type definition. Standard draft [basic.def.odr]:

5 Exactly one definition of a class is required in a translation unit if the class is used in a way that requires the class type to be complete. [ Example: ... [snip] ... [ Note: The rules for declarations and expressions describe in which contexts complete class types are required. A class type T must be complete if:

  • [snip]
  • 5.9 a function with a return type or argument type of type T is defined ([basic.def]) or called ([expr.call]), or
  • [snip]

The declaration of a function with incomplete return type is implicitly allowed by virtue of not being forbidden by any of the rules in the list.

The rule is re-worded later in the standard, and it is relaxed by an exception [dcl.fct] (thanks to @cpplearner for pointing this rule out):

11 Types shall not be defined in return or parameter types. The type of a parameter or the return type for a function definition shall not be an incomplete (possibly cv-qualified) class type in the context of the function definition unless the function is deleted ([dcl.fct.def.delete]).


An ill-formed demo:

struct S;
S foo() {
    return {};
} // oops
struct S {};

Another ill-formed demo:

struct S;
S foo();
int main() {
    foo(); // oops
}
struct S {};
S foo() {
    return {};
}
2
  • 7
    Upvoted because this seems to be exactly the confirmation in the standard the OP was looking for. Jan 31, 2017 at 20:46
  • Right. If you think about this from a compiler design perspective, it makes perfect sense: the type must be complete if the compiler needs to know its size/alignment. These do matter in code generation for expressions, and also in setting up the return structure for a function. But they of course do not matter for a forward declaration, which does not appear in the generated code and only updates the compiler's internal structures.
    – wchargin
    Feb 1, 2017 at 2:10

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