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Is there an easy way to retrieve the type of a member?
In C++03

struct Person
{
    std::string name;
    int         age;
    double      salary;
};

int main()
{
    std::vector<Person>     people; //  get a vector of people.

    std::vector<GET_TYPE_OF(Person::age)>   ages;

    ages.push_back(people[0].age);
    ages.push_back(people[10].age);
    ages.push_back(people[13].age);

}

I am actually doing this (ie being slightly lazy):

#define BuildType(className, member, type)                                 \
        struct className ## member: TypeBase<className, type>              \
        {                                                                  \
            className ## member()                                          \
                : TypeBase<className, type>(#member, &className::member)   \
            {}                                                             \
        }

BuildType(Person, name,     std::string);
BuildType(Person, age,      int);
BuildType(Person, salary,   double);
typedef boost::mpl::vector<Personname, Personage, Personsalary> FunckyMTPMap;

But rather than have to force the user to specify the type of the member I want to the compiler to generate it pragmatically.

#define BuildType(className, member)                                                  \
struct className ## member: TypeBase<className, TYPE_OF(className ## member)>         \
{                                                                                     \
   className ## member()                                                              \
      : TypeBase<className, TYPE_OF(className ## member)>(#member, &className::member)\
   {}                                                                                 \
}
BuildType(Person, name);
BuildType(Person, age);
BuildType(Person, salary);
typedef boost::mpl::vector<Personname, Personage, Personsalary> FunckyMTPMap;
share|improve this question
    
I don't think C++ lets you even talk about Person::age without having an instance of Person –  Seth Carnegie Jan 14 '12 at 23:25
    
@SethCarnegie: If that's true (and I think it may be), it's somewhat annoying. How does one discover the sizeof Person::age? –  Oliver Charlesworth Jan 14 '12 at 23:26
    
what about creating something like a typedef int Person::age_t;? –  greatwolf Jan 14 '12 at 23:30
    
sizeof without an instance. Try: sizeof(reinterpret_cast<Person*>(0) -> age) Have I misunderstood the question, @SethCarnegie ? –  Aaron McDaid Jan 16 '12 at 0:22
    
@AaronMcDaid I thought of that today too when I used offsetof. Prefer MSN's answer though, because the offsetof way has undefined behaviour –  Seth Carnegie Jan 16 '12 at 0:29

3 Answers 3

up vote 4 down vote accepted
template <class T, class M> M get_member_type(M T:: *);

#define GET_TYPE_OF(mem) decltype(get_member_type(mem))

Is the C++11 way. It requires you to use &Person::age instead of Person::age, although you could easily adjust the macro to make the ampersand implicit.

share|improve this answer
    
@SethCarnegie, bah, I had to get off my phone to write a real answer. –  MSN Jan 14 '12 at 23:28
    
Sweet, this works (for me at least) –  Seth Carnegie Jan 14 '12 at 23:31

In C++2003 it can't be done directly but you can delegate to a function template which deduces the type:

template <typename T, typename S>
void deduce_member_type(T S::* member) {
     ...
}

int main() {
    deduce_member_type(&Person::age);
}
share|improve this answer

Since in your examples you use boost I'd use TYPEOF from boost.

http://www.boost.org/doc/libs/1_35_0/doc/html/typeof.html

it works very similarly to decltype of C++11.

http://en.wikipedia.org/wiki/C%2B%2B11#Type_inference in your case:

std::vector<BOOST_TYPEOF(Person::age) > ages;

you can compare the types decltype or BOOST_TYPEOF gives you with typeinfo

#include <typeinfo>
cout << typeid(obj).name() << endl;

you need to make a proper people vector with length >14 for the example to work.

gcc has typeof or typeof doing the same thing.

As a side note. For the example you gave you could just define the types in the struct instead if none of the above is relevant for you.

struct Person
{
  typedef  int agetype;
  std::string name;
  agetype         age;
  int         salary;
};

then use std::vector< Person::agetype > ages;

share|improve this answer

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