Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

A similar question was asked about maintaining a runtime list of types for c#:

How can I store and use an array of different types derived from a common base type?

Basically what I would like is to maintain a sequence of names of types that are derived from a common base class. I can achieve this at runtime by doing something like this:

std::vector v;

template <typename Derived>
class Base
  Base() { v.push_back(typeid(Derived).name())

This works if all derived classes are singletons, but with runtime overhead. If they weren't singletons I could add some checks to avoid duplication, but it still involves runtime cost. I was thinking of instead populating a type sequence such as a boost::mpl_vector:

class Derived1 : public Base<Derived1> {}
class Derived2 : public Base<Derived2> {}
class Derived3 : public Base<Derived3> {}

typedef boost::mpl::vector<
  Derived3> TypeSequence;

That works, but it means I have to manually maintain the list, which becomes a hassle for lots of types. I know I can automate this process using a horrid concoction of boost preprocessor loops but I was hoping to avoid macros to keep the codebase as maintainable as possible.

Any suggestions?

EDIT: the solution must be entirely compile-time and must work even if none of the types are instantiated.

share|improve this question
@OMGtechy how do I make push_back run once at compile time? –  quant Jul 31 at 1:32
I realise I misread your question, so I deleted the comment. Am working on a solution now. –  OMGtechy Jul 31 at 1:33
There is no way to do that directly in C++, because in principle the set of "all types derived from Base" (optionally concrete), is open unless Base is final. That means it is always possible to define a new derived type in another translation-unit, or later in the same. Thus, you either have to manage the list manually, include a tool in the build-process extracting that list for you (complicated, you probably have to build it yourself), or you must be satisfied with a runtime solution like OMGTechy shows. –  Deduplicator Jul 31 at 2:19
@Deduplicator I would be happy with a solution that restricts the list to the types within the given translation unit. –  quant Jul 31 at 2:21
Looks like what you actually need is a tagged union, rather than inheritance. Check out boost::variant. –  Eduardo León Jul 31 at 2:54

2 Answers 2

up vote 1 down vote accepted

Note: This answer was written before "the solution must be entirely compile-time and must work even if none of the types are instantiated." was added to the question.

Although this is not calculated at compile time, the name of each type is only added once. You must create at least one instance of each type to work (aka. types that are not instantiated will not be added to the container)

#include <iostream>
#include <vector>
#include <string>

struct TypeBase{
    static std::vector<std::string> m_container;

std::vector<std::string> TypeBase::m_container;

template <typename DerivedType>
struct MyBase{
        static bool typeAdded = false;
            typeAdded = true;
            // you may also want to demangle this name
            // take a look at boost/units/detail/utility.hpp

struct Derived1 : public MyBase<Derived1>{


struct Derived2 : public MyBase<Derived2>{


struct Derived3 : public MyBase<Derived3>{


int main(){
    Derived1 a, b, c;
    Derived2 d, e, f;
    Derived3 g, h, i;

    for(std::string const & name : TypeBase::m_container){
        std::cout << name << std::endl;


Using my compiler, this prints:

struct Derived1
struct Derived2
struct Derived3
share|improve this answer
Runtime overhead is not an acceptable solution in this case. I need the solution to be entirely compile-time, and available before any of the classes are instantiated. –  quant Jul 31 at 1:56
@Arman I'll see what I can do. Although the runtime overhead here would be tiny, I can understand the issue with types not being instantiated in time. –  OMGtechy Jul 31 at 1:57
Thanks, I appreciate the input. I updated the question to clarify that I need a compile-time solution. –  quant Jul 31 at 1:58
@Arman my efforts so far indicate that you're not going to be able to do this a) without the usage of ghastly macros or b) the way I've outlined above. Perhaps you could by initializing a static data member with a lambda that adds the type name to a container, but my attempts at that so far have produced nothing. –  OMGtechy Jul 31 at 2:27

This answer shows how to do it for general types. Presumably you could do the same thing, but only use the code in derived types.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.