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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;



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
up vote 7 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() {
share|improve this answer

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


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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