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Consider the following design :

template <class SecondType>
struct First
{
    SecondType* _ptr;
};

template <class FirstType>
struct Second
{
    FirstType* _ptr;
};

where the First type has a pointer to a Second type and vice-versa. The problem is that I cannot declare this because they are interdependent and I should declare First<Second<First<Second...>>>.

How to solve this problem ?

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What exactly is this emulating? –  chris Jun 3 '13 at 4:09
    
Why the above class design? What real-life problem are you trying to solve? –  Andrzej Jun 3 '13 at 8:40

3 Answers 3

up vote 1 down vote accepted

Maybe a work-around with something that looks like CRTP but even crazier:

#include <iostream>

template <class SecondType>
struct FirstBase
{
    SecondType* _ptr;
};

template <class FirstType>
struct SecondBase
{
    FirstType* _ptr;
};

struct FirstDerived
: public FirstBase<SecondBase<FirstDerived>>
{
};

struct SecondDerived
: public SecondBase<FirstBase<SecondDerived>>
{
};

int main()
{
    FirstBase<SecondDerived> x;
    SecondBase<FirstDerived> y;
    return 0;
}

If someone has a more elegant way to do this, I would be happy to see it.

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I would assume you didn't want us to change the templates too much because to do it without the templates would be easy –  aaronman Jun 3 '13 at 14:58

Not sure what you are trying to achieve but the following compiles fine.

template <class T> struct First  { T* _ptr; };
template <class T> struct Second { T* _ptr; };

int main(){
   First<Second<First<Second<void>>>> a; // or
   First<Second<First<Second<nullptr_t>>>> b;
   return 0;
}

Note I replaced FirstType, SecondType altogether cos it does not matter. T would be replaced by whatever you pass and this will happen when the template is being specialized before compilation.

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Here is another possibly more elegant solution which doesn't require void at all. I don't know if the inheritance is acceptable to you but I think it works well.

#include<vector>
#include<algorithm>
#include<iostream>
using namespace std;
struct Base {
    //make all functions virtual
};
template <class SecondType>
struct First: public Base
{
    SecondType* _ptr;
    First(SecondType * st) {
        _ptr = st;
    }
    First() {
    }
};

template <class FirstType>
struct Second: public Base
{
    FirstType* _ptr;
    Second(FirstType * ft) {
        _ptr = ft;
    }
    Second() {
    }
};

int main() {
    First<Base> f;
    Second<Base>  s;
    f._ptr = &s;
    s._ptr = &f;
    cout << s._ptr << endl;
}
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