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Below code works fine:

template<typename T> class X {};
class A;  // line-1
void foo();  // line-2
int main ()
  X<A> vA;
class A {};
void foo() {}

Let line-1 and line-2 are moved inside main(). The function doesn't get affected but the class A forward declaration doesn't work and gives compiler error:

error: template argument for template<class T> class X uses local type main()::A

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As far as I know, it's UB to use an incomplete type as a template argument to std::vector, by the way. Might want to conjure up a simple type yourself if you want a language-lawyer question, like template <typename> struct Empty{};, giving Empty<A> vA;. (Or is it truly specific to std::vector?) –  GManNickG Oct 6 '12 at 6:26
@GManNickG, edited the question. It's for general usage with template. –  iammilind Oct 6 '12 at 6:32

2 Answers 2

What you can observe is happening because, in C++, you can define classes inside functions. So, if you place class A; in main, you are forward-declaring a class in scope of this function (i.e. class main::A), not in global scope (class A).

Thus, you are finally declaring an object of type X with a template argument of undefined class (X<main::A>).

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"you are finally declaring an object of type X with a template argument of undefined class" -- Now that the template used is X rather than vector, I don't think it's a problem that main::A is an incomplete type. It's just plain illegal in C++03 to use a local type as a template parameter (14.3.1/2). AFAIK the restriction is removed in C++11. –  Steve Jessop Oct 6 '12 at 8:39

error: template argument for template class X uses local type main()::A

This is the real problem - using a local type. In C++03 you cannot use local types as template arguments, because nobody had figured out how to name the resulting types.

What if you have several class A in several overloaded functions (again using the same name) - would the resulting X<A>'s then be the same type, or different types? How would you tell them apart?

In C++03 the standard passed on this, and just said "Don't do that!".

The problem was resolved in C++11 by deciding that X<A> using a local type A would be the same as if A had been declared in an anonymous namespace outside of the function, like

    class A
    { };

int main()
    X<A>   vA;

So, with a newer compiler (or using a -std=cpp11 option), you can use a local class, and we also know what it means.

However, forward declaring a type inside a function still doesn't mean the same as forward declaring it in another scope. They will just be different types.

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