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I'll begin with a context that will lead to the actual question.

I'm trying to build a class whose every instance will manage how data is tied together into objects. The class should preferably contain methods:

class DataManager {
  Object CreateObject();
  void DestoryObject();

  template<typename DataType>
  DataType* AddDataToObject(Object o)

  template<typename DataType>
  DataType* GetDataForObject(Object o)

  template<typename DataType>
  void RemoveDataFromObject(Object o)

Object in the code above is just some identifier - int at this point and does not contain any data or methods (this should not change). DataType used above can be basically any class, however the general situation is that this is just a struct with no methods. The complete list of things that can be used as DataType is known at compile time but should not be encoded as it changes quite often.

The two goals I try to achieve are: - Maintainability/Speed - The user should be able to add new DataType structures without modifying this code - Speed - should be as fast as possible :)

Now the best thing idea I had so far is to make a container classes:

class ContainerBase;

template<typename DataType>
class DataTypeContainer : ContainerBase;

The data structure then would be something like:

map< DataTypeType, map< Object, ContainerBase* > >

Sow how can one achieve this? Would boost::mpl::map help and how?

In essence this should be possible to do since all DataType's are known at compile time.

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Are you looking for a map from types to values? Do you want that map to be global, or do you need multiple instances? –  Jeremiah Willcock Feb 3 '11 at 20:51
@Jeremiah Willcock - Yes it would be the best to map from types to values and unfortunately I need multiple instances. –  Bartłomiej Siwek Feb 3 '11 at 22:45
I just edited my answer to keep a global map from void* to Object for each data type (representing a map from types to void* keys representing map instances to values). You might want to consider having a boost::fusion::map (or even a struct) in a common header file with a list of all members, though; that requires code updating but stores the information in one place. –  Jeremiah Willcock Feb 3 '11 at 22:48

3 Answers 3

up vote 0 down vote accepted
class DataManager {
    struct internal_base { virtual ~internal_base() {} };
    template<typename T> struct internal_data : public internal_base {
        T t;
    boost::unordered_map<Object, boost::unordered_map<std::string, boost::unique_ptr<internal_base>>> data;
    Object CreateObject() { return Object(); }
    void DestroyObject(Object o) { data.erase(o); }

    template<typename DataType> DataType* AddDataToObject(Object o, std::string name) {
        internal_data<T>* ptr = new internal_data<T>();
        data[o][name] = ptr;
        return &ptr->t;

    template<typename DataType> DataType* GetDataForObject(Object o, std::string name) {
        internal_base* ptr = data[o][name].get();
        if (internal_data<DataType>* dptr = dynamic_cast<internal_data<DataType>*>(ptr)) {
            return &dptr->t;
            return 0;

    void RemoveDataFromObject(Object o, std::string name) {
        data[o][name] = 0;

This code makes some assumptions- like default-construction of Object type, and that it is hashable. But it shouldn't be too difficult to modify. It would be substantially trickier to get defined behaviour if you want just one data member of each type associated with a specific Object, because you can't rely on RTTI to return unique names for each possible DataType.

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I kind of like this approach except the name parameter in every function signature. It has nothing to do with how this class will be used and frankly I think it breaks the encapsulation. –  Bartłomiej Siwek Feb 3 '11 at 22:46
@Bartlomiej: If you have something else to associate multiple data objects with, or only want one data object/Object, then ditch it. It doesn't break any encapsulation- it just identifies different data elements. –  Puppy Feb 3 '11 at 22:51
THis isn't exactly what I was looking for but I'll take it :) –  Bartłomiej Siwek Feb 10 '11 at 18:56

If you want the equivalent of a map from types to values, and it can be global, you can use static members:

template <typename T>
struct DataManager {
  static std::map<void*, Object> this_type_map;

plus appropriate definitions of DataManager<T>::this_type_map for the various values of T (but those definitions don't need to be in the same source file). After that, you can create type map objects using (void*)(new int), free them using delete (int*)(m), and look up the object for an instance m and a type T using DataManager<T>::this_type_map[m]. You would want to wrap these in functions or objects, of course. Note that you can have a different type than Object as the value type in the map, including (using template specializations) having a different value type for each key type in the type map.

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I think that you need the std::tuple c++11 or playing with boost::tuple for c++ 03

template<typename T>
struct Entry{
  T t;

int main(int argc, char **argv) {
  std::tuple< int, float, double, Entry<int> > objects;
  std::get<0>(objects) = 3;
  std::get<3>(objects).t = 5;

  utils::get< Entry<int> >(object).t = 5;
  return 0;

get by type can be implemented like here: https://github.com/alekstheod/tnnlib/blob/master/src/Utilities/Utilities/MPL/Tuple.h

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