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Say I have a template function which sets data in a struct via pointers-to-member:

struct S
{
    double d;
    unsigned int u;
};

struct A
{
    S s, s2;
    float f;
    int i;
};

template<typename Stream, typename Class, typename Type>
void read(Stream& s, Class& out, Type Class::*member)
{
    s >> out.*member;
}

Now for regular members like f and a I can use this function on an arbitrary instance of struct A:

#include <sstream>

int main(int, char**)
{
    std::stringstream stream;

    A a;
    stream.clear(); stream.str("1");
    read(stream, a, &A::i);
    stream.clear(); stream.str("1.5");
    read(stream, a, &A::f);
    stream.clear(); stream.str("2");

    printf("%i\n", a.i);
    printf("%f\n", a.f);
}

But is there any way to access members of A::s or A::s2 in a similar fashion without writing a new, effectively identical function for every composite member (s, s2, etc.)? Pointers to members of members do not exist to my knowledge, but is there an alternative solution? (It has to work on arbitrary instances of a struct or class, similarly to how the pointer-to-member solution above works and should not require additional methods in A or S).

To clarify the question somewhat (see also the comments in this answer): In the real code (a config file reader), the caller does a lookup in a map with a first string and doesn't actually know what is currently being read (using the second string), as the pointer-to-member parameter is bound. Also the map is initialized once and used for multiple instances of A, therefore the pointers-to-members.

Please note the c++03 tag. Therefore c++11 lambdas are not an option.

share|improve this question
    
There is no such member pointer. What are you trying to do? This is an awfully weird way to populate a class. –  GManNickG Jun 4 '13 at 22:26
    
@GManNickG added some clarification (and I already stated in the question itself that I know that there is no such pointer...) –  Joe Jun 4 '13 at 22:31

1 Answer 1

Not sure if I get the problem right. Just as you could reach members i, f with a PTM you can do the same with S. You don't need a separate funcition to access s and s2: a single function will do with an extra argument of type S A::*.

Or if the types must be variable, you can extend your read function something like:

template<typename Stream, typename Class, typename Type, typename Class2, typename Type2>
void read(Stream& s, Class& out, Type Class::*member, Type2 Class2::*member2)
{
    s >> ((out.*member).*member2);
} 

and use it like read(stream, a, &A::s, &S::u);

(I don't have compiler at hand to test it, it may need some touch-up)

share|improve this answer
    
This is in probably the closest you can get to what I was looking for. You can save a template parameter though, as Type and Class2 must be identical. –  Joe Jun 5 '13 at 5:43

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