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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) \
      }; \
      apitemp operator[](std::string n) {return apitemp(n, this);} \

#define CF_MAP_CLASS_NAME my_map

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;
    //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;
        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) 
    void insert(std::string name, identity<int(std::string, const int&)>::type* 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;

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;
    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;
    class apitemp {
        std::string n;
        my_map* p;
        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
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
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

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