what I want to archive is a simple way to make some variables persistent. For this I wrote a PeristenceProvider Class which wraps the boost property tree functionality to store data in xml / ini files.

At the moment I need to do things like this:

   m_valueI = PersistenceProvider::getInstance.get<int>("valueI");

    PeristenceProvider::getInstance.set<int>("valueI", m_valueI);

But is there a chance to hide this in a way like this:

class ClassA
     Persist<int, "valueI"> m_ValueI;
  • I think you can get close with templates, but for you'll need macro magic to make it exactly like that.
    – Stormenet
    Commented Jun 25, 2012 at 15:34
  • 1
    If you need to generate string identifiers from variable names you will need macros
    – K-ballo
    Commented Jun 25, 2012 at 15:35
  • Can you pass the string literal as a template parameter?
    – tmpearce
    Commented Jun 25, 2012 at 15:50
  • I wouldn't mind to add a second template parameter containing the name
    – Steve
    Commented Jun 25, 2012 at 15:50
  • Passing strings a template parameter is not allowed! You can use ordinal numbers though. Besides this i wouldnt make the variable constantly persistent but would store it at exact spots or use a Marshaller/Unmarshaller architecture. The Configuration framework from Poco is quite nice to do such things: pocoproject.org/slides/180-Configuration.pdf Commented Jun 25, 2012 at 16:02

2 Answers 2


It's possible but not exactly that way. You cannot use string literals to instantiate template. String objects with external linkage are only allowed to be non-type arguments. So string constant must be defined as extern and be char[], not just char*.

See example (it will print "Hello" and "World", really cool, isn't it?):

extern const char hello[] = "Hello";
extern const char world[] = "World";

template<const char* s> struct X
      std::cout << s << std::endl;

X<hello> z1;
X<world> z2;

It sounds like you are not persisting tons of info - just a few choice parameters. If so, then just wrap the function calls in your own functions that take two arguments - a std::string or const char * and the type of the item being persisted. If the number of types being persisted is limited (e.g. int, double, std::string), this will work fine.

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