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I'm trying to use forward declarations as much as I can to minimize compilation time. I noticed that when I forward declare a class that is using something like std::vector as a member object (example here):

class myTypeA
class A
  std::vector<myTypeA > getTypeA();


I get the following error:

microsoft visual studio 9.0\vc\include\vector(1112) : error C2036: 'myTypeA *' : unknown size
1>        c:\program files\microsoft visual studio 9.0\vc\include\vector(1102) : while compiling class template member function 'bool std::vector<_Ty>::_Buy(unsigned int)'
1>        with
1>        [
1>            _Ty=myTypeA
1>        ]
1>        d:\cpp\A.h(15) : see reference to class template instantiation 'std::vector<_Ty>' being compiled
1>        with
1>        [
1>            _Ty=myTypeA
1>        ]

this is working fine when I use the #include "myTypeA.h", why ?

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3 Answers 3

up vote 5 down vote accepted

This is because the compiler needs to know the size of the types to be stored in the vector. Without the full class definition it has no way of know this.

An alternative would be to store pointers to your forward-declared type - however you would need to manage the memory allocation and deallocation.

A third option would be to declare a shared_ptr type based on your forward declared type and store these in your vector.

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Actually, a vector could trivially be implemented to work with incomplete types, and there’s a good argument to be made that the standard should mandate this. Alas, as it stands, the standard doesn’t mandate it, and MSVC’s standard library apparently checks for this (stdlibc++ doesn’t, by the way). A word on pointers, a shared_ptr is only appropriate if shared ownership is actually intended. Otherwise (and that should be most cases), use a unique_ptr. – Konrad Rudolph Jul 3 '12 at 7:44
+1 for shared_ptr/unique_ptr. – Trickfire Jul 3 '12 at 7:47
@KonradRudolph. I thought one of the constraints of a vector was that elements were stored in a contiguous block of memory, but maybe this is more of a common implementation strategy than a constraint. – Nick Jul 3 '12 at 7:48
@Nick - The vector does store the elements in a contiguous block, but that block isn't allocated until you actually store something in the vector. At that point the type must obviously be complete. The standard could have allowed empty vectors of incomplete type. – Bo Persson Jul 3 '12 at 7:58
@Potatoswatter: I think the best way to do that would be to use as deleter a function that is declared in the TU with the incomplete object type, and defined in the TU with the complete type. YMMV :-) In the case of a type that (once complete) will be trivially destructible, you could even use as deleter a function that just calls delete via the incomplete type. I've a vague memory of shared_ptr doing that unless the implementer put in a check, but maybe I'm imagining it. Anyway that's fragile since it's hard to enforce that your incomplete type really will end up trivially destructible. – Steve Jessop Jul 3 '12 at 8:38

As the error says

error C2036: 'myTypeA *' : unknown size

Compiler would not know the size of the object of this type by forward declaration. It just tells what type is it. You need to include the header to bring in the class definition so that compiler can evaluate the size of an object of this type.

See this SO question

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The simple answer is that the standard requires a complete definition anytime you instantiate a template over a type; it's undefined behavior otherwise. Compilers which enforce such constraints (g++, when you compile with the proper options) will fail to compiler. Others might accept it. (Although formally undefined behavior, in practice, it will either fail to compile, or work as expected.)

I'm somewhat surprised that Microsoft fails to compile the bit of code you posted, since it doesn't need to know anything about myTypeA. The message looks like something that might appear if you are calling the function; if you call the function, you'll definitely need a definition of myTypeA, since the compiler will have to instantiate the copy constructor, which in turn means copying the contained instances of myTypeA.

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