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.

I am using the factory pattern. It basically allows classes to be registered at compile time and stored in a map. An instance can then be returned using BaseFactory::createInstance()

I am not sure how a map is holding class names at compile time !! How can memory be allocated in compile time that's valid at run time ?

All class is in this case is derived from the parent class Bump_BaseObject

//C++ STL used for adding Reflection
#include <string>
#include <map>

class Bump_BaseObject;

 * Derived Base objects creation factory
template<typename T>
Bump_BaseObject* createT(void)
#pragma message("createT instantiated")
    return new T();

struct BaseFactory {
    typedef std::map<std::string, Bump_BaseObject*(*)()> map_type;

    //return an instance of the class type 's'
    static Bump_BaseObject* createInstance(const std::string& s) {
        map_type::iterator it = getMap()->find(s);
        if(it == getMap()->end())
            return 0;

        //this is where we instatiate and allocate memory for the object(it must NOT have any arguments)
        //we could write a variant that accepts args, but there is no need.
        return it->second();

    //check if 's' is present in the map of registered types
    static bool checkIfRegisteredType(const std::string& s) {
        map_type::iterator it = getMap()->find(s);
        if(it == getMap()->end())
            return false;

        return true;

    static map_type* getMap() {
        // never delete'ed. (exist until program termination)
        // because we can't guarantee correct destruction order
        if(!objectMap) { objectMap = new map_type; }
        return objectMap;

    static map_type * objectMap;

#define VALUE_TO_STRING(x) #x

template<typename T>
struct DerivedRegister : BaseFactory {
    DerivedRegister(const std::string& s) {

#pragma message("Type registered")
        getMap()->insert(std::pair<std::string, Bump_BaseObject*(*)()>(s, &createT<T>));

Also is there a way to print the class names as they get registered ?

share|improve this question
Nothing happens at compile time. All the interesting action happens in the dynamic initialization phase, which happens at runtime just before main() is called. –  Kerrek SB May 20 '12 at 19:38
Your static map is leaking. A cleaner way to write this would be: static map_type & getMap() { static map_type impl; return impl; }. –  Kerrek SB May 20 '12 at 19:39

1 Answer 1

up vote 5 down vote accepted

I think your code is altogether confused, mixing preprocessor directives with strange inheritance patterns. Instead of trying to fix it, I'd like to present a generic, self-registering factory framework (which will print out registrations as they happen).

Note that all global initialization happens during the dynamic initialization phase, i.e. at runtime just before main() is called.


#include <unordered_map>
#include <string>

class Base
    typedef Base * (*base_creator_fn)();
    typedef std::unordered_map<std::string, base_creator_fn> registry_map;

    virtual ~Base() = default;

    static registry_map & registry();
    static Base * instantiate(std::string const & name);

struct Registrar
    Registrar(std::string name, Base::base_creator_fn func);


#include "Base.hpp"
#include <iostream>

registry_map & Base::registry()
    static registry_map impl;
    return impl;

Base * Base::instantiate(std::string const & name)
    auto it = Base::registry().find(name);
    return it == Base::registry().end() ? nullptr : (it->second)();

Registrar::Registrar(std::string name, Base::base_creator_fn func)
    Base::registry()[name] = func;
    std::cout << "Registering class '" << name << "'\n";

Usage Example


#include "Base.hpp"

class DerivedExample : public Base
    static Registrar registrar;
    static Base * create() { return new DerivedExample; }
    // ...


#include "Example.hpp"

Registrar DerivedExample::registrar("DerivedExample", DerivedExample::create);


#include "Example.hpp"

int main()
    Base * p = Base::instantiate("DerivedExample");
    Base * q = Base::instantiate("AnotherExample");

The crux here is that each derived class has a static Registrar member, which gets initialized (in unspecified order) during the dynamic initialization phase of your program, and each constructor of which performs the actual insertion into the registry map, as well as printing out of the log message.

(If you don't have a modern C++ compiler, you would have to use the old C++98-style syntax:)

virtual ~Base() { }   //  no "= default"

Base::registry_map::const_iterator it = Base::registry().find(name); // no "auto"
share|improve this answer
Thanks for the clear explanations Kerrek. Also the example :). Yeah I never liked the code I gave, pretty tough to understand whats going on. I am trying out your example now. –  safe_malloc May 20 '12 at 21:13
@safe_malloc: I fixed some minor errors. The biggest change is that covariant function pointers aren't convertible, so create() now just returns a Base*. –  Kerrek SB May 20 '12 at 21:50
Worked perfectly with a few minor changes :) !....oops right you did the changes :P –  safe_malloc May 20 '12 at 22:28
@safe_malloc: I should add that in C++11 I would definitely have the creation function return a std::unique_ptr<Base>! –  Kerrek SB May 20 '12 at 22:30
@KerrekSB: This helped me a lot! I've been struggling for weeks to do this kind of thing. Now I can pop in new derived classes all over the place and have them instantiated and configured from a file filled with class names and configuration data. Great Stuff! –  mcvz Mar 14 '13 at 21:21

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.