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I often create local helper classes inside methods, wherever such a class is locally useful but irrelevant outside the method. I just came across a case where I would like two local classes that are mutually dependent.

The idea is to have the following pattern:

void SomeClass::someMethod()
    struct A
        B * b;
        void foo() { if(b) b->bar(); };
    struct B
        A * a;
        void bar() { if(a) a->foo(); }

But it doesn't compile because A needs B. Forward declaring B helps so that the line B * b; compiles, but still the method A::foo() needs the full declaration of B and the compiler complains.

I see two workarounds:

  1. Declaring and defining the classes in SomeClass.cpp, before SomeClass::someMethod(). I feel it's not elegant since not only the classes are not local to SomeClass::someMethod(), but not even local to SomeClass.

  2. Declaring the classes in SomeClass.h nested in SomeClass, and defining them in SomeClass.cpp. I do not like this solution either because because not only the classes are not local to SomeClass::someMethod(), but it does pollute SomeClass.h for no good reason other than a limitation of the language.

Hence two questions: is it possible at all to have the classes local to SomeClass::someMethod()? If not, do you see more elegant workarounds?

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why you need it local inside a method? you can declare/define them in .cpp file only and it don't pollute .h file –  Bryan Chen Nov 28 '13 at 4:08
@BryanChen: it's not really that I need it, it's just that it is way more elegant if I can: if the class is an implementation details for the method, then defining it inside the method is where it belongs. Just good OOP encapsulation. –  Boris Nov 28 '13 at 4:10
@Boris Its encapsulation, but its not OOP. –  woolstar Nov 28 '13 at 4:12
ok it make sense to me. however, this means you will have a big method and you can't unit test struct A and B –  Bryan Chen Nov 28 '13 at 4:15
Still, why do you need two mutually dependent structs? Maybe if you showed a practical usage of this it would be easier to answer. –  user1508519 Nov 28 '13 at 4:22

2 Answers 2

Implement a virtual A, for B to use, then the real A.

struct virtA
  virtual void foo() = 0 ;
} ;
struct B
  virtA * a ;
  void bar() { if ( a) { a->foo() ; } }
} ;
struct A : public virtA
  B * b ;
  void bar() { if ( b) { b-> bar() ; } }
} ;
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Ah, ok, we have to turn up the horror just a little then. –  woolstar Nov 28 '13 at 4:08
up vote 0 down vote accepted

Since the answer seems to be: "it is not possible to have clean mutually dependent local classes", it turns out that the workaround I like the most is to move the logic outside the structs themselves. As suggested by remyabel in the comments of the question, it can be done by creating a third class, but my favorite approach is to create mutually recursive lambda functions, since it makes possible to capture variables (hence makes my life easier in my real case usage). So it looks like:

#include <functional>
#include <iostream>

int main()
    struct B;
    struct A { B * b; };
    struct B { A * a; };

    std::function< void(A *) > foo;
    std::function< void(B *) > bar;

    foo = [&] (A * a) 
        std::cout << "calling foo" << std::endl;
        if(a->b) { bar(a->b); }
    bar = [&] (B * b)
        std::cout << "calling bar" << std::endl;
        if(b->a) { foo(b->a); }

    A a = {0};
    B b = {&a};

    return 0;

That compiles and prints:

calling foo
calling bar
calling foo

Note that the type of the lambdas must be manually specified because type inference doesn't work well with recursive lambdas.

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