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I would like to have a struct (or something similar) in C++, that will allow access to its members dynamically. It should have a generic getter and setters that receive the member name as a string, and return some sort of variant type (e.g. boost::variant).

I was thinking it could be implemented using boost::fusion::map, by adding a string representing the name of each member, and building an STL map between strings and getter or setter functions. I don't want to reinvent the wheel, so I was hoping something similar already existed.

What do you think? Would my idea work? Do you know other ways to accomplish my goal?

Thanks, Haggai

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2  
I wonder why you want this? Even in languages that directly support it, reflection is a hack used to get around bad code, or cheap code for lazy programmers. –  John Dibling Dec 2 '10 at 13:51
    
You're defeating the type-safety C++ gives you. What on Earth can justify exchanging such a simple, strong tool for correctness with a messy hack for achieving uncertainty? –  wilhelmtell Dec 2 '10 at 14:18
    
@wilhelmtell: I'm trying to find the right balance. I'm reading values from a very uncertain source, and they need to be parsed and handled in a generic way. Only for a small part of them I know (and want to know) the right type. –  haggai_e Dec 2 '10 at 14:49
2  
@Dibling: I always thought that lazy programmers where the best programmers ... –  haggai_e Dec 2 '10 at 14:52
    
so about using a standard container of various types rather than a struct? –  wilhelmtell Dec 2 '10 at 15:51

3 Answers 3

up vote 5 down vote accepted

fusion is an approach, but why not store your "fields" in a std::map keyed by a std::string, where the payload is the boost::variant...

i.e.

struct generic
{
std::map<std::string, boost::variant<foo, bar, bob, int, double> > _impl;
};

and then you can just lookup the key in your getter/setter...

heck, wrap the variant in an optional and you could have optional fields!

a more complex example:

class foo
{
public:
  typedef boost::variant<int, double, float, string> f_t;
  typedef boost::optional<f_t&> return_value;
  typedef map<string, return_value> ref_map_t;

  foo() : f1(int()), f2(double()), f3(float()), f4(string()), f5(int()) 
  {
    // save the references..
    _refs["f1"] = return_value(f1);
    _refs["f2"] = return_value(f2);
    _refs["f3"] = return_value(f3);
    _refs["f4"] = return_value(f4);
    _refs["f5"] = return_value(f5);
  }

  int getf1() const { return boost::get<int>(f1); }
  double getf2() const { return boost::get<double>(f2); }
  float getf3() const { return boost::get<float>(f3); }
  string const& getf4() const { return boost::get<string>(f4); }
  int getf5() const { return boost::get<int>(f5); }

  // and setters..
  void setf1(int v) { f1 = v; }
  void setf2(double v) { f2 = v; }
  void setf3(float v) { f3 = v; }
  void setf4(std::string const& v) { f4 = v; }
  void setf5(int v) { f5 = v; }

  // key based
  return_value get(string const& key)
  {
    ref_map_t::iterator it = _refs.find(key);
    if (it != _refs.end())
      return it->second;
    return return_value();
  }

  template <typename VT>
  void set(string const& key, VT const& v)
  {
    ref_map_t::iterator it = _refs.find(key);
    if (it != _refs.end())
      *(it->second) = v;
  }

private:
  f_t f1;
  f_t f2;
  f_t f3;
  f_t f4;
  f_t f5;

  ref_map_t _refs;
};

int main(void)
{
  foo fancy;
  fancy.setf1(1);
  cout << "f1: " << fancy.getf1() << endl;

  fancy.set("f1", 10);
  cout << "f1: " << fancy.getf1() << endl;

  return 0;
}
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This would work, but I prefer having strict type checking, and faster runtime access in the cases when I do know the field name at compile time. –  haggai_e Dec 2 '10 at 13:01
    
okay, in that case store in the map references to the real fields (which are of type variant - example above)... –  Nim Dec 2 '10 at 13:27
    
The problem here is that there are 5 places where I need to add a new field. This seems like a lot of boilerplate for adding what consists only of a compile-time name, a string, and the type. Maybe I could modify your solution by having the fields public (and with their non-variant type), and storing in the map some kind of wrappers that converted each to and from a variant. –  haggai_e Dec 2 '10 at 14:18
    
I eventually wrote something more complex: instead of holding a map with variants, I created a map that had string keys, and getter and setter functions for values. The getters and setters then accessed a boost::fusion::map object to get the actual values. But this solution was more complicated then necessary... –  haggai_e Jun 22 '11 at 12:56

You are asking for Reflection in C++ which I think is not available. You will have to come up with something of your own.

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RTTI is available in C++, you're thinking of reflection... :) –  Nim Dec 2 '10 at 12:55
    
Yes, reflection in C++ would make it much simpler. I'll settle for a solution that requires minimal new lines of code for adding a new field. –  haggai_e Dec 2 '10 at 12:57
    
Yes, you are right. Updated answer. –  Aamir Dec 2 '10 at 12:59

What I did for this was a boost::cons-like type-list that contains my members and some kind of description. I then build this mapping by successively adding my members to a "meta-info" data structure by "chained" function calls. The whole thing looks very similar to defining a class in boost.python. If you actually use boost::cons, it should also work as a sequence in boost.fusion, so you can iterate nicely over your data. Maybe you can use a boost.fusion map instead to get log(n) access times at run-time, but it seems their size is limited until variadic templates are available.

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I think both boost::fusion::map and boost::cons have O(1) run-time access. –  haggai_e Dec 4 '10 at 19:38

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