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I'm trying to create a generic storage class in C++. If you look at the code bellow, I'm want to store maps of string / AnyType and access them.

  class StoresTestC
    template < class SettingsType >
    std::map< std::string, SettingsType >* getStore(std::string const&);
    std::map< std::string, void* > stores_;

  template < class SettingsType >
  std::map< std::string, SettingsType >* StoresTestC::getStore(std::string const& name)
    if (stores_.count(name) > 0)
      void* temp = this->stores_[name];
      return (std::map< std::string, SettingsType >*)(temp);
      std::map< std::string, SettingsType > * result = new std::map< std::string, SettingsType > ();
      this->stores_[name] = result;
      return result;

I see two obvious dangers in doing so:

  1. If I call it with a wrong SettingsType / name I will call a wrong cast which as far as I know (I may be wrong) will lead to an undefined behaviour.

  2. It will create a memory leak, but I have a solution for that (which was two long too be disclosed here).

Is there anything else that can go wrong and you can you forsee ?

share|improve this question
Why not a std::map of boost::anys ? – K-ballo Dec 20 '12 at 17:40
Have you checked out the boost::any library? It can be a useful way to have containers that store anything. – Doug T. Dec 20 '12 at 17:40
Yeah, but I don't want a std::map< std::string, boost::any >, but one map per type... – Arthur Dec 20 '12 at 17:42
... but I could use a std::map< std::string, boost::any > > where the value is actually a map... – Arthur Dec 20 '12 at 17:43
up vote 2 down vote accepted

First take a step back and make sure you really want to do this. Then look at your design one more time.

OK, you still need this capability?

Use std::map<std::string, boost::any> where the boost::any is always a map type. Then when you use any_cast or whatever mechanism to get the item back out, you're guaranteed that it's the right type or it throws so you never risk undefined behavior. Additionally since the any is by value you don't have a possible memory leak floating around either.

I should also note that in your original solution if you use a shared_ptr<void*> it would remember how to delete the original type stored in that shared_ptr thus removing the memory leak you mentioned.

EDIT: I can't see any other obvious technical problems with something like this. However note that having such a map is possible/likely to cause cognitive ("grokking") problems for future maintainers, and does increase the complexity of the code somewhat.

share|improve this answer
Thanks, sounds like a good idea. But back to my question, is there any other issue besides the one I've mentionned? – Arthur Dec 20 '12 at 17:51
@jules The one you mentioned is a BIG one, as you can take from the answers around here. As long you're not absolutely sure that no one else but you are using this interface, and you will remember what you've been doing there I won't call such 'design' a good idea ... – πάντα ῥεῖ Dec 20 '12 at 18:03

Since you have to pass the type as a template parameter to get the map anyway, would it do to just have one map per type?

namespace StoresTest {
  template<typename T>
  struct MapStruct {
    static std::map<std::string, T> the_map;

  template<typename T> std::map<std::string, T> MapStruct<T>::the_map;

  template<typename T>
  inline std::map<std::string, T>& getStore()
  { return MapStruct<T>::the_map; }

Then for example you can get a map with value type Foo by doing

std::map<std::string, Foo>& foo_map = StoresTest::getStore<Foo>();

You no longer need a string to name the type, but that could be added in if you have other reasons to want it.

share|improve this answer
But if the type of values in the map isn't known until runtime, you can't do anything with it! Unless the value types all inherit a common abstract base class, in which case the map should just contain pointers to the ABC. – aschepler Dec 20 '12 at 17:58
I don't really like the static bit... and it needs to be able to have several maps of the same type with a different key. – Arthur Dec 20 '12 at 18:03

Yes, you're right with your doubts about point 1 (point 2 should be solvable as you mention, but think about destructors of the contained maps should be called correctly).

I won't let go such interface into the wild without providing a simple mechanism that clients keep up SettingsType and the std::string 'typename' representation in sync. A simple typo can mess up the whole thing. I think that boost::any will just express this with an exception as soon you try to cast the value to the desired/expected result type.

Why do you need std::string representation here at all? If you use RTTI for example you can hide the key used for stores_ using typeid().

share|improve this answer
RTTI is a good idea, but I'll lose the ability to have two maps of the same type. But I can add the RTTI information to the ValueType of my map and check agains it... but then it's like rewriting what has been done in boost::any – Arthur Dec 20 '12 at 18:01
boost::any won't at least let you down with undefined behavior, as Mark B's answer says. But there may be cases when you can't use boost or exceptions or even RTTI (I'm working in embedded field for example where we face such situations). I usually get around this then using an enum for the type(-ids) that is extensible for clients and can be explicitly bound to the type in question using a template method specialization (I'm hiding this in macros for convenience). The compliance check is done at compile time then (look for 'static checks'). – πάντα ῥεῖ Dec 20 '12 at 18:11

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