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I am trying to achieve the following using c++ template metaprogramming. I wish to build up a list of types and then collect these types together and do further compile-time processing on the list. So for example:


class Foo { ... };


class Bar { ... };


#include "foo.h"
#include "bar.h"

struct list_of_types {
  typedef /* INSERT ANY CODE HERE */ type;

I can insert any code into the slots above, so long as list_of_types::type resolves to some representation (e.g. a boost::mpl::vector) of a list containing the types Foo and Bar. The following restrictions apply:

  1. The code in foo.h should not know about the code in bar.h, and vice versa. It should be possible to change the order of #include directives in main.h and not change any other code.

  2. The code in main.h should not have to change if I include further headers that add further types to the list.

  3. The list of types must be available at compile time. I am planning to do further metaprogramming involving the list.

share|improve this question
@Jarod42 How does std::tuple help here? Point 2 is a very sensible requirement – this makes the code open to extension without requiring change to existing code. – Konrad Rudolph Sep 9 '13 at 15:39
Loki typelist? – Adam Burry Sep 9 '13 at 15:47
@AdamBurry: the main challenge is finding a way to build up lists in this way. There are many ways of representing lists of types (such as boost::mpl::vector or the possibilities you mentioned), but this is not the core issue. – Alex Flint Sep 9 '13 at 16:09
It seems to me that you are going to need code in your headers to register the types with the type list. – Adam Burry Sep 9 '13 at 16:32
up vote 13 down vote accepted

A solution utilizing a common header, variadic templates and a macro:

// Header common.h

// A distinct Void type
struct Void {};

template <typename ...> struct concat;

template <template <typename ...> class List, typename T>
struct concat<List<Void>, T>
    typedef List<T> type;

template <template <typename ...> class List, typename ...Types, typename T>
struct concat<List<Types...>, T>
    typedef List<Types..., T> type;

template <typename...> struct TypeList {};

template <>
struct TypeList<Void> {};
typedef TypeList<Void> TypelistVoid;
#define TYPE_LIST TypelistVoid

// Header foo.h
// #include <common.h>

class Foo { };

typedef typename concat<TYPE_LIST, Foo>::type TypeListFoo;
#undef TYPE_LIST
#define TYPE_LIST TypeListFoo

// Header bar.h
// #include <common.h>

class Bar { };

typedef typename concat<TYPE_LIST, Bar>::type TypeListBar;
#undef TYPE_LIST
#define TYPE_LIST TypeListBar

// Header main.h 
// #include "foo.h"
// #include "bar.h"

struct list_of_types {
    typedef TYPE_LIST type;
// Or just typedef TYPE_LIST list_of_types;

// Test
#include <iostream>
#include <typeinfo>

template <template <typename ...> class List, typename T, typename ...Types>
void info();

template <typename T, typename ...Types>
inline void info(TypeList<T, Types...>) {
    std::cout << typeid(T).name() << std::endl;

template <typename T>
inline void info(TypeList<T>) {
    std::cout << typeid(T).name() << std::endl;

int main() {
    return 0;
share|improve this answer
Ahh yes this does it. Good idea to use a preprocesor symbol to store the changing global "state" of the list. As an aside, I was hoping to be able to wrap up the code that gets put into foo.h and bar.h with a macro like REGISTER_TYPE, but I guess with this scheme that isn't quite possible. You've definitely answered my question though - thank you! – Alex Flint Sep 9 '13 at 19:12
I've found a different solution which only needs macros not includes, see – Ambroz Bizjak Jun 7 '14 at 0:57

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