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So imagine we had 2 functions (void : ( void ) ) and (std::string : (int, std::string)) and we could have 10 more. All (or some of them) take in different argument types and can return different types. We want to store them in a std::map, so we get an API like this:

//Having a functions like:
int hello_world(std::string name, const int & number )
    name += "!";
    std::cout << "Hello, " << name << std::endl;
    return number;
void i_do_shadowed_stuff()

//We want to be capable to create a map (or some type with similar API) that would hold our functional objects. like so:
myMap.insert(std::pair<std::string, fun_object>("my_method_hello", hello_world) )
myMap.insert(std::pair<std::string, fun_object>("my_void_method", i_do_shadowed_stuff) )
//And we could call tham with params if needed:
int a = myMap["my_method_hello"]("Tim", 25);

I wonder how to put many different functions into the same container. Specifically, how to do this in C++03 using Boost.

The API should be independent from the actual function types (having int a = myMap["my_method_hello"]("Tim", 25); not int a = myMap<int, (std::string, int)>["my_method_hello"]("Tim", 25);).

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How would you know which elements to call with the first prototype, and which with the second? –  Oli Charlesworth Nov 29 '11 at 1:10
We assume programmer knows what API he created. But how to create such thing in the first place? –  myWallJSON Nov 29 '11 at 1:14
Then why not use a struct of function(-object) pointers? With a map, you're asking for compile-time support for knowledge that you only have at run-time. It doesn't make sense in C++. –  Oli Charlesworth Nov 29 '11 at 1:16
I just read about this in stackoverflow: stackoverflow.com/a/3176186/1058916 , which may interest you. –  fefe Nov 29 '11 at 1:22
@fefe: That makes my answer a little clearer. A little. Thanks! –  Mooing Duck Nov 29 '11 at 1:32

4 Answers 4

up vote 6 down vote accepted
#include <functional>
#include <iostream>
#include <string>
#include <map>

class api {
    // maps containing the different function pointers
    typedef void(*voidfuncptr)();
    typedef int(*stringcrintptr)(std::string, const int&);

    std::map<std::string, voidfuncptr> voida;
    std::map<std::string, stringcrintptr> stringcrint;
    // api temp class
    // given an api and a name, it converts to a function pointer
    // depending on parameters used
    class apitemp {
        const std::string n;
        const api* p;
        apitemp(const std::string& name, const api* parent)
            : n(name), p(parent) {}
        operator voidfuncptr()
        { return p->voida.find(n)->second; }
        operator stringcrintptr()
        { return p->stringcrint.find(n)->second; }

    // insertion of new functions into appropriate maps
    void insert(const std::string& name, voidfuncptr ptr)
    { voida[name]=ptr; }
    void insert(const std::string& name, stringcrintptr ptr)
    { stringcrint[name]=ptr; }
    // operator[] for the name gets halfway to the right function
    apitemp operator[](std::string n) const
    { return apitemp(n, this); }


api myMap; 

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

int main()
    myMap.insert("my_method_hello", &hello_world );
    int a = myMap["my_method_hello"]("Tim", 25);

http://ideone.com/SXAPu Not very pretty. Better advice is to not do anything even remotely like whawtever it is you're trying to do.

Note that this requires all functions with the same parameters to return the same type.

share|improve this answer
Yes indeed. I'm not even going to attempt to figure out what this is doing. –  Oli Charlesworth Nov 29 '11 at 1:27
@OliCharlesworth: commented. But yes. It's a monstrosity even when you know what it's doing. –  Mooing Duck Nov 29 '11 at 1:31
problem is it is not... so to say live... I mean you can live with such thing when its class hidden deep inside API... But this implementation shall be changed each time new function type is introduces so you cant just say class.push<any_return_T, array_of_input_T's>(function_name) –  myWallJSON Dec 1 '11 at 19:24
Correct. This will only work for function types that have been specified beforehand. For those specified, you can simply insert them though. –  Mooing Duck Dec 1 '11 at 19:34
You can work around the return value thing I think with std::function, but I'm not sure how. You will still have to provide every possible combination of parameter types though. –  Mooing Duck Dec 1 '11 at 19:36

You can use boost::any...

#include <boost/any.hpp>
#include <iostream>
#include <map>
#include <string>

void voidFunc()
    std::cout << "void called" << std::endl;

void stringFunc(std::string str)
    std::cout << str << std::endl;

int main()
    std::map<std::string, boost::any> funcs;
    funcs.insert(std::pair<std::string, boost::any>("voidFunc", &voidFunc));
    funcs.insert(std::pair<std::string, boost::any>("stringFunc", &stringFunc));

    return 0;

Note that you will get a runtime exception if you don't specify the function signature correctly in the any_cast.

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can we any how get automated (on compile time) type validation with/via Boost.Variant somehow adding new types to it when inserting into map? –  myWallJSON Nov 29 '11 at 4:08
@myWallJSON: Not sure if I understand you correctly, but probably yes. If you replace boost::any with boost::variant<T1, T2, T3> then you can only insert those three types into the map. –  MSalters Nov 29 '11 at 8:02
@MSalters: see dedicated Q –  myWallJSON Nov 29 '11 at 9:03

The thing is, somehow, when you call your functions, you already know what type they will be.

If we do something like

int x = map["key"](1, "2")

we can already deduce that whatever function is stored in "key" is of type (int (*)(int, char*)) so we might as well have done something like

int x = map_of_int_and_string_to_int["key"](1, "2");

and avoid all the hassle of merging all the keys together... While it is true that C++ has some overloading features precisely for this kind of stuff I can't really see why you should bother in this particular case.

And in the end, why would you want to put all those functions in the same map in the first place? They don't share any similar interfaces so you can't uniformly access them, you can't iterate over them and you can't opaquely pass them around to someone else. Without anything in common there is nothing you can safely do to the functions in this hypothetical map.

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I try to implement a task pool over MPI. So I need some kind of RPC but one that would work between difrent parts of my programm, meaning processor A wants processor B to call function C with argument D. We can not pass pointers to functions between processes like we do with threads, so we need some wrapper container to hold our function pointers at each process instance. All inside one source file\one programm... –  myWallJSON Dec 1 '11 at 19:27
@myWallJSON: How are you going to pass the abstract parameters? –  Mooing Duck Dec 4 '11 at 0:03

You can do it by casting function pointers to void pointers and back. You're expected to know the signature during run-time, so it wouldn't be an issue to hard-wire the casting operators. However the logic of doing it escapes me. It doesn't make sense at all, at least in C++. Using template classes/functions or structs of function pointers makes much more sense.

for example, with templates:

template <typename X> foo(X param1) { /* do something with param1*/};
template <typename X, typename Y> foo(X param1, Y param2)
   {/* do something with 2 params*/};
template <int X> foo(X param1) { /* only one parameter, which is int */};


foo(5); // calls the third one
foo("5"); // calls the first one
foo("5", 5); // calls the second one.

Who needs a map?

share|improve this answer
Why are templates needed here? –  Oli Charlesworth Nov 29 '11 at 1:28
@Oli - just an example, don't have to use templates, you can achieve it in various different ways. In my particular example I was trying to show a generic function that accepts a parameter of any type (through template), and a specific function that accepts int, but it may appear a bit forced. –  littleadv Nov 29 '11 at 1:30
All you´re doing here is overloading. How do you put these functions into a container, together? That is the question. –  Benjamin Lindley Nov 29 '11 at 1:40

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