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.

Boost comes with an example file in


called interpreter.hpp and interpreter_example.hpp

I am trying to create a situation where I have a bunch of functions of different arguments, return types, etc all register and be recorded to a single location. Then have the ability to pull out a function and execute it with some params.

After reading a few questions here, and from a few other sources I think the design implemented in this example file is as good as I will be able to get. It takes a function of any type and allows you to call it using a string argument list, which is parsed into the right data types. Basically its a console command interpreter, and thats probably what its meant to illustrate.

I have been studying the code and poking around trying to get the same implementation to accept class member functions, but have been unsuccessful so far. I was wondering if someone could suggest the modifications needed, or maybe worked on something similar and have some same code.

In the example you'll see

interpreter.register_function("echo", & echo);
interpreter.register_function("add", & add);
interpreter.register_function("repeat", & repeat);

I want to do something like

test x;
interpreter.register_function("classFunc", boost::bind( &test::classFunc, &x ) );

But this breaks the any number of arguments feature. So I am thinking some kind of auto generating boost::bind( &test::classFunc, &x, _1, _2, _3 ... ) would be the ticket, I just am unsure of the best way to implement it.


share|improve this question
The example's register_function creates a bind object with the invoker::apply function and fusion::nil which is used to fill in the sequence args argument fusion::invoke requires. Its not as simple as adding the class ptr in that bind, I need to get the class pointer into the build sequence operation. I am assuming the class pointer needs to be the first element in the sequence, not 100% sure though, not a lot of doc boost.org/doc/libs/1_41_0/libs/fusion/doc/html/fusion/… –  Charles Dec 5 '09 at 23:24
Alexandre Deschamps' reponse should be marked as the correct answer –  Catskul Apr 17 '12 at 22:46

3 Answers 3

up vote 6 down vote accepted

I've been working on this issue and i've somewhat succeeded to make the boost interpreter accept the member function such as:

// Registers a function with the interpreter, 
// will not compile if it's a member function.
template<typename Function>
typename boost::enable_if< ft::is_nonmember_callable_builtin<Function> >::type
register_function(std::string const& name, Function f);

// Registers a member function with the interpreter. 
// Will not compile if it's a non-member function.
template<typename Function, typename TheClass>
typename boost::enable_if< ft::is_member_function_pointer<Function> >::type
register_function(std::string const& name, Function f, TheClass* theclass);

The enable_if statement is used to prevent the use of the wrong method at the compile time. Now, what you need to understand :

  • It uses the boost::mpl to parse trough the argument's parameter types of the callable builtin (which is basically a function pointer)
  • Then, prepares a fusion vector at the compile-time (which is a vector that can stock different objects of different types at the same time)
  • When the mpl is done parsing every arguments, the "parsing" apply method will fork in the "invoke" apply method, following the templates.
  • The main issue is that the first argument of a member callable builtin is the object which holds the called method.
  • As far a I know, the mpl cannot parse the arguments of something else than a callable builtin (i.e A Boost::Bind result)

So, what needs to be done is simply add one step to the "parsing" apply, which would be to add the concerned object to the apply loop! Here it goes:

template<typename Function, typename ClassT>
typename boost::enable_if< ft::is_member_function_pointer<Function> >::type
interpreter::register_function( std::string const& name, 
                                Function f, 
                                ClassT* theclass);
    typedef invoker<Function> invoker;
    // instantiate and store the invoker by name
            = boost::bind(&invoker::template apply_object<fusion::nil,ClassT>

in interpreter::invoker

template<typename Args, typename TheClass>
static inline
apply_object( Function func, 
              TheClass* theclass, 
              parameters_parser & parser, 
              Args const & args)
    typedef typename mpl::next<From>::type next_iter_type;
    typedef interpreter::invoker<Function, next_iter_type, To> invoker;

    invoker::apply( func, parser, fusion::push_back(args, theclass) );      

This way, it will simply skip the first argument type and parse everything correctly. The method can be called this way: invoker.register_function("SomeMethod",&TheClass::TheMethod,&my_object);

share|improve this answer

I am not into fusion and therefore don't see how to fix it in a simple and elegant way (i mainly don't see how member functions are supposed to work), but i worked on something similar that might be an alternative for you.
If you want to take a look at the result, it is in the Firebreath repository.

In short:

The main changes would probably involve to strip the FB-specific types, tokenize the input sequence before invoking the functors and supply your own conversion functions.

share|improve this answer
Some interesting code, seems like its very similar to what I want and what the example code is doing, except with member functions. I can tell that we have both run into the same problem and you chose to go the variant route. I might end up there as well, but I cannot help but think that it could be much cleaner. An auto sig tockenizer and converter like this example presents would be ideal. –  Charles Dec 6 '09 at 4:13
The variant route has to be taken there as they come from the scripting enviroment, one could feed strings in as well. But i agree, the fusion example looks quite elegant. I am curious though wether they support member functions at all. –  Georg Fritzsche Dec 6 '09 at 12:07

One option is to make a set of templates

template <class T, class Ret>
void register_function(const char *name, Ret (T::*fn)()) { /* boost::bind or your way to register here */ }

template <class T, class Ret, class Arg1>
void register_function(const char *name, Ret (T::*fn)(Arg1)) { /*...*/ )

And so on.. Until C++0x come with its variadic templates, you can use Boost.Preprocessor to generate required amount of templates

share|improve this answer

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.