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I am trying to make a vector hold void pointers to functions, which will later be called secuentially.
So, lets say that I have got three functions. int a(), void b();, bool c();

My vector is vector<void *> vec;

And my function that stores pointers to functions.

void registerFunction(void *func)

Now my problem is when trying to call all the functions stored, since they are all void pointers, I just cannot call the functions without knowing their type.

So my question is... is there any way to store types of symbols so I can relate them to their respective pointers and then typecast when calling a void pointer to a function?

Note: Functions won’t be always be of type, for example, void (*)(), I will want to add methods also, hence ie. void (someclass::)(). Is it asking for too much? Should it work?

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"void pointers to functions" - a contradictio in terminis. (you can at the very most get the memory address that corresponds to it, but then you will have left the C++ specs) –  sehe Sep 22 '11 at 21:52

3 Answers 3

up vote 0 down vote accepted

void* can't safely be used as a generic pointer-to-function type (though you might be able to get away with it).

But any function-to-pointer value can be converted to another pointer-to-function type and back again without loss of information. So you can use, for example, void (*)() (pointer to function returning void and taking no arguments) as a generic pointer-to-function type.

As for storing the type, I'm not sure that's possible. If there are only a limited number of possibilities, you can use an enumeration type and a switch statement.

But you'll probably be better off using a design based on inheritance.

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You cannot convert a function pointer to void*. It is not allowed.

If all of the functions are callable with zero arguments and you don't care about the return type, you can use std::vector<std::function<void()>> (function can also be found in Boost and TR1 if your C++ Standard Library does not support it).

Though, if I recall correctly, return-type conversion is not allowed in the C++11 std::function implementation, in which case you may need something like the following:

template <typename T>
struct ignore_result_impl
    ignore_result_impl(T fp) : fp_(fp) { }
    void operator()() { fp_(); }
    T fp_;

template <typename T>
ignore_result_impl<T> ignore_result(T fp)
    return ignore_result_impl<T>(fp);

int g() { return 42; }
std::function<void()> f(ignore_result(g));

(In the Boost implementation I know you can use function<void()> directly, but I'm pretty sure that is no longer allowed in C++11. I could be wrong and I'd appreciate clarification in the comments, if someone does know.)

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I think it's actually allowed (i.e., it's not a constraint violation), but the behavior (not just the result) of the conversion is undefined. At least that's the case in C; C++ might be different. –  Keith Thompson Sep 22 '11 at 21:48
@KeithThompson being undefined is pretty much the same as not being allowed. –  R. Martinho Fernandes Sep 22 '11 at 21:52
@R.MartinhoFernandes: I wouldn't say so. There's a big difference between errors that the implementation is required to diagnose (syntax errors and constraint violations) and errors that it isn't; it's a least important to understand the distinction. And sometimes code needs to be non-portable; such code routinely does things whose behavior is undefined by the standard, though it may be defined by something else. For example, the POSIX dlsym function depends on the ability to convert a void* to a function pointer. –  Keith Thompson Sep 22 '11 at 22:18

As long as all the functions follow the same type signature, you can cast the void pointers back to that type.

A better solution is to typedef the function type:

typedef int(*fun_ptr)();
vector<fun_ptr> vec;

Then you will not need the cast.

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+1 for the fun_ptr idea. -1 for saying that you can case the pointers back (yes you can cast them; no you cannot claim that you are casting something 'back'; you are casting it to 'something' - undefined) –  sehe Sep 22 '11 at 21:54

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