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.

I'm trying to turn this C++ code/answer (class that creates map string <-> some_array_of_predefined_function_types ) into more automated class using boost/preprocessor.

I have created the following code:

#include <boost/preprocessor.hpp>
#include <iostream>
#include <string>
#include <map>
#include <vector>

#define CF_ADD_MAPS(z, n, T) \
std::map<std::string, identity< BOOST_PP_CAT(T, n ) >::type* >  \
BOOST_PP_CAT(T , BOOST_PP_CAT(n , _var));  

#define CF_ADD_OPERATORS(z, n, T) \
operator identity< BOOST_PP_CAT(T, n ) >::type*()  \
{return \
BOOST_PP_CAT( p->   , BOOST_PP_CAT(T , BOOST_PP_CAT(n , BOOST_PP_CAT( _var, [n]) )) ) ; \
}

#define CF_ADD_INSERTERS(z, n, T) \
    void insert(std::string name, identity< BOOST_PP_CAT(T, n ) >::type* ptr)   \
{ \
    BOOST_PP_CAT(T , BOOST_PP_CAT(n , BOOST_PP_CAT( _var, [name]) )) =ptr; \
}

template <typename T> struct identity { typedef T type; };

#define CF_DEFINE_MAP_STRUCT_I(name, number)                   \
template <BOOST_PP_ENUM_PARAMS(number, class T)>              \
class name {                                          \
      BOOST_PP_REPEAT(number, CF_ADD_MAPS, T)        \
      friend class apitemp;                                        \
      public: \
      class apitemp {  \
        std::string n;  \
        BOOST_PP_CAT(name, *) p; \
        public: \
            apitemp(std::string name_, BOOST_PP_CAT(name, *) parent)  \
                : n(name_), p(parent) {} \
            BOOST_PP_REPEAT(number, CF_ADD_OPERATORS, T) \
      }; \
      BOOST_PP_REPEAT(number, CF_ADD_INSERTERS, T) \
      apitemp operator[](std::string n) {return apitemp(n, this);} \
};


#define CF_MAP_CLASS_NAME my_map
#define CF_GENERATE_MAP_CLASS(z, n, data) CF_DEFINE_MAP_STRUCT_I(CF_MAP_CLASS_NAME, n)
#define CF_MAX_MAP_TYPES_COUNT 2
BOOST_PP_REPEAT(CF_MAX_MAP_TYPES_COUNT, CF_GENERATE_MAP_CLASS, x)


/*
class api {
    //maps containing the different function pointers
    std::map<std::string, identity<void()>::type* > voida;
    std::map<std::string, identity<int(std::string, const int&)>::type* > stringcrint;
    friend class apitemp;
public:
    //api temp class 
    //given an api and a name, it converts to a function pointer  
    //depending on parameters used
    class apitemp {
        std::string n;
        api* p;
    public:
        apitemp(std::string name, api* parent) 
            : n(name), p(parent) {}
        operator identity<void()>::type*()
        {return p->voida[n];}
        operator identity<int(std::string, const int&)>::type*()
        {return p->stringcrint[n];}
    }; 
    //insertion of new functions into appropriate maps
    void insert(std::string name, identity<void()>::type* ptr) 
    {voida[name]=ptr;}
    void insert(std::string name, identity<int(std::string, const int&)>::type* ptr)
    {stringcrint[name]=ptr;}
    //operator[] for the name gets halfway to the right function
    apitemp operator[](std::string n) {return apitemp(n, this);}
} myMap;
*/

int hello_world(std::string name, const int & number )
{
    name += "!";
    std::cout << "Hello, " << name << std::endl;
    return number;
}

int main() {
    my_map<int(std::string, const int &)> myMap;
    myMap.insert("my_method_hello", &hello_world ); 
    int a = myMap["my_method_hello"]("Tim", 25);
    std::cout << a << std::endl;
    std::cin.get();
}

Which does not compile with next 5 errors:

Error   1   error C2913: explicit specialization; 'my_map' is not a specialization of a class template  

Error   2   error C2133: 'myMap' : unknown size

Error   3   error C2512: 'my_map' : no appropriate default constructor available

Error   4   error C2039: 'insert' : is not a member of 'my_map'

Error   5   error C2676: binary '[' : 'my_map' does not define this operator or a conversion to a type acceptable to the predefined operator

while preprocessor generates:

template <>
class my_map {
    friend class apitemp;
public:
    class apitemp {
        std::string n;
        my_map* p;
    public: apitemp(std::string name_, my_map* parent) : n(name_), p(parent) {}  
    };
    apitemp operator[](std::string n) {
        return apitemp(n, this);
    } 
};
template < class T0>
class my_map {
    std::map<std::string, identity< T0 >::type* > T0_var;
    friend class apitemp;
public:
    class apitemp {
        std::string n;
        my_map* p;
    public:
        apitemp(std::string name_, my_map* parent) : n(name_), p(parent) {} 
        operator identity< T0 >::type*() {
            return p->T0_var[0] ; 
        } 
    }; 
    void insert(std::string name, identity< T0 >::type* ptr) {
        T0_var[name] =ptr;
    } 
    apitemp operator[](std::string n) {
        return apitemp(n, this);
    } 
};

I am wondering what I did wrong and how get it to compile?

share|improve this question
1  
Your specialization is before your primary template, that should be the other way around. The order is important, primary first, then the specializations. –  Tony The Lion Dec 4 '11 at 10:47
1  
Please, can you put in some more effort wording your question and not just dump some code? I have noticed some while now, this is a pattern with your (many) questions and, frankly, it doesn't show a lot of respect. SO is a volunteer community, and I think you could be a lot more careful not to waste people's time. Thank you. –  sehe Dec 4 '11 at 12:17

1 Answer 1

up vote 1 down vote accepted
template <>
class my_map {
  // ...
};

The problem is here with the BOOST_PP_ENUM_PARAMS, which will also generate a 0-param version. And since 0-param versions (template<>) introduce specializations, it errors on you. Fix: Have at least one fixed param.

Next problem: You can't "overload" classes based on template parameters. They have to have different names or be structured in an other way with partial specializations or something.

share|improve this answer
    
'You can't "overload" classes based on template parameters.' thats sad!=( So how do you get arount that? (Btw how the we done it in Boost.Overload, thay have stuff like overload<int (bar*, int ), int (bar*, std::string )> f; ...?) –  myWallJSON Dec 4 '11 at 10:59
    
@myWallJSON: That's based on partial specialization. template<class Sig1, class Sig2> struct overload; template<class R1, class Arg1, class R2, class Arg2 ...> struct overload<R1 (Arg1), R2(Arg2), ...)> (... in the general sense as "repetition", it's not like that in the language). –  Xeo Dec 4 '11 at 11:04

Your Answer

 
discard

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.