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I have two classes, Foo<T> and Bar<T>, derived from Base. Each overrides a method virtual Base* convert(ID) const, where ID is an instance of a type that uniquely identifies a particular instantiation of Foo or Bar (pretend it's an enum). The problem is that Foo::convert() needs to be able to return a Bar instance, and likewise Bar::convert() needs to be able to instantiate Foo. Since they're both templates, this results in a circular dependency between Foo.h and Bar.h. How do I resolve this?

Edit: A forward declaration does not work because the implementation of each method needs the constructor of the other class:

Foo.h:

#include <Base.h>

template<class T> class Bar;

template<class T>
class Foo : public Base { ... };

template<class T>
Base* Foo<T>::convert(ID id) const {

    if (id == BAR_INT)
        return new Bar<int>(value); // Error.

    ...

}

Bar.h:

#include <Base.h>

template<class T> class Foo;

template<class T>
class Bar : public Base { ... };

template<class T>
Base* Bar<T>::convert(ID id) const {

    if (id == FOO_FLOAT)
        return new Foo<float>(value); // Error.

    ...

}

The error is, naturally, "invalid use of incomplete type".

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Cyclic dependencies are rarely a good idea. Try to refactor it so that the dependency is broken. A first idea would be moving the convert method into a free function that depends on both Bar and Foo... –  David Rodríguez - dribeas Jul 28 '10 at 15:17

4 Answers 4

up vote 13 down vote accepted

What you need to do is seperate the class declarations from the implementation. So something like

template <class T> class Foo : public Base
{
    public:
    Base* convert(ID) const;
}

template <class T> class Bar : public Base
{
    public:
    Base* convert(ID) const;
}

template <class T> Base* Foo<T>::convert(ID) const {return new Bar<T>;}
template <class T> Base* Bar<T>::convert(ID) const {return new Foo<T>;}

This way, you have complete class definitions when the functions are defined.

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This sounds promising. I'm fiddling with it. –  Jon Purdy Jul 28 '10 at 14:50
    
All set! Thanks very much. –  Jon Purdy Jul 28 '10 at 14:55
    
Took me a couple of reads to work out what you are doing with this answer - by merging the two headers together and putting the function definitions below both class declarations you avoid the problems - good thinking. Helped me too –  Phil Rosenberg Dec 10 '14 at 16:54

You should use template class forward declarations in either headers
template <class T> class X;
is perfectly good template class forward declaration.

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(Updated) You should be able to handle that the same as with non-template classes. Write your Bar.h like this. (And similarly for Foo.h)

#if !defined(BAR_H_INCLUDED)
#define BAR_H_INCLUDED

template <class T>
class Foo;

template <class T>
class Bar
{
    /// Declarations, no implementations.
}    

#include "Foo.h"

template <class T>
Base* Bar<T>::Convert() {  /* implementation here... */ }
#endif
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No dice. The classes can't be forward-declared because I need to make use of their members, or at least the constructor, in order to perform the conversion. I get the expected "invalid use of incomplete type". –  Jon Purdy Jul 28 '10 at 14:31
    
@Jon: See updated post. –  James Curran Jul 28 '10 at 14:53
    
The solution I worked out myself from KeithB's answer is similar to this, but I don't think this actually compiles because Foo.h and Bar.h would still need to include one another, so one would come up empty-handed. –  Jon Purdy Jul 28 '10 at 14:58
    
@Jon: That's why I have the include guard. Bar.h includes Foo.h which attempts to include Bar.h, but gets nothing the second time. –  James Curran Jul 28 '10 at 16:09

James Curran's answer is a godsend. Generally speaking, James' idea is to restrict inclusion of required header files until the moment the members(' declarations) coming from included header files are needed. As an example:

t1.hh

#ifndef S_SIGNATURE
#define S_SIGNATURE

struct G; // forward declaration

template<typename T>
struct S {
  void s_method(G &);
};

#include "t2.hh" // now we only need G's member declarations

template<typename T>
void S<T>::s_method(G&g) { g.g_method(*this); }

#endif

t2.hh

#ifndef G_SIGNATURE
#define G_SIGNATURE

template<typename T>
struct S; // forward declaration

struct G {
  template<typename T>
  void g_method(S<T>&);
};

#include "t1.hh" // now we only need S' member declarations

template<typename T>
void G::g_method(S<T>& s) { s.s_method(*this); }

#endif

t.cc

#include "t1.hh"
#include "t2.hh"

S<int> s;
G g;

int main(int argc,char**argv) {
  g.g_method(s); // instantiation of G::g_method<int>(S<int>&)
}
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I just had to upvote an answer which starts "James Curran's answer is a godsend" –  James Curran Nov 13 '13 at 22:58

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