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I want the derived class to be a descendant of a template class. That class depends on descendant's members. In short I want this code to compile:

struct IBootParams
{
    virtual bool GetImmediate() = 0;
};

template <class T>
struct TBootBootParams
{
    typename T::TransType transferType;

    typename T::UseAbort_ useAbort;

    bool GetImmediate()
    {
        if ( transferType == T::e1 )
        {
            return useAbort.someFlag;
        }

        return false;
    }

};

struct BootBootParams : public TBootBootParams<BootBootParams> 
{
    enum SomeEnum
    {
        e1=0,
        e2,
        e3
    };

    struct UseAbort
    {
        bool        someFlag;           

        char        someMember;             
        int         otherMember;        
    } useAbort;

    typedef SomeEnum TransType;
    typedef UseAbort UseAbort_;
};

struct BootAltBootParams : public TBootBootParams<BootAltBootParams> 
{
    enum SomeEnum
    {
        e1=5,
        e2,
        e3
    };

    struct UseAbort
    {
        bool        someFlag;           

        long long       someMember;             
        long long       otherMember;        
    } useAbort;

    typedef SomeEnum TransType;
    typedef UseAbort UseAbort_;
};

int _tmain(int argc, _TCHAR* argv[])
{
    BootBootParams bp;
    BootAltBootParams bpa;

    bool f = bp.GetImmediate();
    f = bpa.GetImmediate();
}
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So what's the error? –  ybungalobill Dec 18 '10 at 20:04
2  
Why did you declare IBootParams? –  Mihran Hovsepyan Dec 18 '10 at 20:06
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5 Answers

up vote 7 down vote accepted

You can't do it this way. When the compiler instantiates TBootBootParams<BootBootParams> it has not yet completely read the whole definition of BootBootParams so you can't access its members from inside the definition of TBootBootParams (member functions of TBootBootParams are an exception because they are instantiated later).

The usual solution is to have a traits class:

template<class T> struct TBootBootParams_traits;

template <class T>
struct TBootBootParams
{
    typename TBootBootParams_traits<T>::TransType transferType;

    typename TBootBootParams_traits<T>::UseAbort_ useAbort;

    bool GetImmediate()
    {
        if ( transferType == TBootBootParams_traits<T>::e1 )
        {
            return useAbort.someFlag;
        }

        return false;
    }

};

struct BootBootParams;
template<> struct TBootBootParams_traits<BootBootParams>
{
    enum SomeEnum
    {
        e1=5,
        e2,
        e3
    };

    struct UseAbort
    {
        bool        someFlag;           

        long long       someMember;             
        long long       otherMember;        
    };

    typedef SomeEnum TransType;
    typedef UseAbort UseAbort_;
};

struct BootBootParams : 
    public TBootBootParams<BootBootParams>, 
    public TBootBootParams_traits<BootBootParams>
{
    UseAbort_ useAbort;
};
share|improve this answer
    
This is a better hack than mine I think. A bit cleaner. –  Omnifarious Dec 18 '10 at 20:23
    
Looks awesome. I just don't understand why template<> struct TBootBootParams_traits declaration doesn't have any type parameters within <> while its forward declaration does. –  Sergey Tachenov Dec 18 '10 at 20:24
1  
@Sergey: because it's a specialization. @All + @Omnifarious: It's a canonical way for passing some parameters to some template. E.g. STL uses it for iterators (iterator_traits). –  ybungalobill Dec 18 '10 at 20:26
1  
@Sergey Tachenov - Because @ybungalobill is declaring an explicit specialization of the TBootBootParams_traits class. There would be one of these for each derived class. –  Omnifarious Dec 18 '10 at 20:30
    
@ybungalobill - Thats part of why I think it's cleaner. It uses a pattern people are already familiar with. –  Omnifarious Dec 18 '10 at 20:31
show 1 more comment

There is no way this can work that isn't a bit of a hack. So here is my attempt at a bit of a hack:

struct IBootParams
{
    virtual bool GetImmediate() = 0;
};

template <class T>
struct TBootBootParams : public IBootParams
{
    typename T::TransType transferType;

    typename T::UseAbort_ useAbort;

    virtual bool GetImmediate()
    {
        if ( transferType == T::e1 )
        {
            return useAbort.someFlag;
        }

        return false;
    }

};

struct BootBootParams_types
{
    enum SomeEnum
    {
        e1=0,
        e2,
        e3
    };

    struct UseAbort
    {
        bool        someFlag;

        char        someMember;
        int         otherMember;
    } useAbort;

    typedef SomeEnum TransType;
    typedef UseAbort UseAbort_;
};

struct BootBootParams : public BootBootParams_types,
                        public TBootBootParams<BootBootParams_types>
{
};

struct BootAltBootParams_types
{
    enum SomeEnum
    {
        e1=5,
        e2,
        e3
    };

    struct UseAbort
    {
        bool        someFlag;

        long long       someMember;
        long long       otherMember;
    } useAbort;

    typedef SomeEnum TransType;
    typedef UseAbort UseAbort_;
};

struct BootAltBootParams : public BootAltBootParams_types,
                           public TBootBootParams<BootAltBootParams_types>
{
};

int main(int argc, const char * argv[])
{
    BootBootParams bp;
    BootAltBootParams bpa;

    bool f = bp.GetImmediate();
    f = bpa.GetImmediate();
}
share|improve this answer
    
+1 because you were close :) –  ybungalobill Dec 18 '10 at 20:34
    
Thanks. Interesting! –  Romeno Dec 20 '10 at 10:57
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Does this do what you want? It compiles.

struct IBootParams
{
    virtual bool GetImmediate() = 0;
};

template <class T>
struct TBootBootParams
{
    bool GetImmediate()
    {
        if ( static_cast<T*>(this)->transferType == T::e1 )
        {
            return static_cast<T*>(this)->useAbort.someFlag;
        }

        return false;
    }

};

struct BootBootParams : public TBootBootParams<BootBootParams> 
{
    enum SomeEnum
    {
        e1=0,
        e2,
        e3
    } transferType;

    struct UseAbort
    {
        bool        someFlag;           

        char        someMember;             
        int         otherMember;        
    } useAbort;
};

struct BootAltBootParams : public TBootBootParams<BootAltBootParams> 
{
    enum SomeEnum
    {
        e1=5,
        e2,
        e3
    } transferType;

    struct UseAbort
    {
        bool        someFlag;           

        long long       someMember;             
        long long       otherMember;        
    } useAbort;
};

int main(void)
{
    BootBootParams bp;
    BootAltBootParams bpa;

    bool f = bp.GetImmediate();
    f = bpa.GetImmediate();
}
share|improve this answer
    
Wow. I'm really impressed that compiles. Is it supposed to compile? Just because it actually works doesn't mean it's supposed to. :-) –  Omnifarious Dec 18 '10 at 20:22
    
BTW, it also compiles on gcc 4.5. –  Omnifarious Dec 18 '10 at 20:32
    
@Omnifarious: Yes, this should compile, it's straightforward CRTP. I got rid of the base class members that were causing the problem... since their data type is determined by the derived type, they can be declared in the derived type, and the base class can access them just fine by leveraging the template parameter. –  Ben Voigt Dec 18 '10 at 20:36
    
@Omnifarious: Yep, it compiles. When you call member functions this way, it's called "static polymorphism". See CRTP –  ybungalobill Dec 18 '10 at 20:37
    
@Omnifarious, I think it compiles because it only refers to the types inside functions and functions are compiled after the class definition (otherwise they wouldn't be able to work with this properly as it would point to an incomplete type). –  Sergey Tachenov Dec 18 '10 at 20:38
show 6 more comments

For this approach to work, you have to include the template class object as a member of the parent class.

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I tried a little change to ybungalobill's solution counting my own needs. And this what I got

template<class T> 
struct TBootBootParams_traits;

template <class T>
struct TBootBootParams
{
    typedef TBootBootParams_traits<T> Traits;

    typename Traits::TransType transferType;
    typename Traits::UseAbort_ useAbort;

    bool GetImmediate()
    {
        if ( transferType == TBootBootParams_traits<T>::e1 )
        {
            return useAbort.someFlag;
        }

        return false;
    }
};

struct BootBootParams;
struct BootAltBootParams;

template<> 
struct TBootBootParams_traits<BootBootParams>
{
    enum SomeEnum
    {
        e1=5,
        e2,
        e3
    };

    struct UseAbort
    {
        bool        someFlag;           

        long long       someMember;             
        long long       otherMember;        
    };

    typedef SomeEnum TransType;
    typedef UseAbort UseAbort_;
};

template<> 
struct TBootBootParams_traits<BootAltBootParams>
{
    enum SomeEnum
    {
        e1=5,
        e2,
        e3
    };

    struct UseAbort
    {
        bool        someFlag;           

        int someMember;             
        float otherMember;        
    };

    typedef SomeEnum TransType;
    typedef UseAbort UseAbort_;
};

struct BootBootParams : 
    public TBootBootParams<BootBootParams>
{

};

struct BootAltBootParams : 
    public TBootBootParams<BootAltBootParams>
{

};

int main(void)
{
    BootBootParams bp;
    BootAltBootParams bpa;

    bool f = bp.GetImmediate();
    f = bpa.GetImmediate();
}

To summarize.. I use a template class as a must-have option of another class for this class placing all type data there. This just what I needed. Thanks again for the option!

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