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I'm trying to figure out how to write this function:

template <typename Bound>
Bound::result_type callFromAnyList(Bound b, list<any> p)
{
}

Then, if I had some function:

double myFunc(string s, int i)
{
    return -3.0;
}

I could call it by doing something like this:

list<any> p;
p.push_back((string)"Hello");
p.push_back(7);
double result = callFromAnyList(bind(myFunc, _1, _2), p);

Is it possible to write something like my callFromAnyList function? Can you inspect the result type and the parameter types from the type returned from bind? And then call any_cast<P1>(*p.begin()), etc? I've tried to understand the bind code, but it's a little hard to follow, and it doesn't appear as though they wrote it with inspection in mind.

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I'm not sure I understand your intent. You want callFromAnyList to take (1) a function and (2) a list of parameters and then call that function, with that list of parameters, in a type-safe fashion? –  Josh Kelley Nov 20 '08 at 19:41
    
Precisely. I understand that it's kind of a weird request, but I figure I'll learn a lot about the innards of boost::bind if someone comes up with an answer. –  Matt Cruikshank Nov 20 '08 at 19:42
    
i think your request is totally valid. i tried what you are going to try some time ago, but failed in figuring out a way. boost::bind has a visitor interface that will call you back with the parameter types and values (if any). but i haven't found a way to just get the parameter types -.- –  Johannes Schaub - litb Nov 20 '08 at 19:46
    
To be more clear - I don't really care about boost::bind in this scenario. What I really care about is inspecting the parameter types of a function. Is there a different way - boost or not - to do that? It seems like boost::bind is just the holder, and all the smarts are in bind's operator(). –  Matt Cruikshank Nov 20 '08 at 20:07
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2 Answers

up vote 1 down vote accepted

As you updated your concerns in the comment sections, here the answer. Just getting the return type of a function is possible:

template<typename>
struct return_of;

template<typename R>
struct return_of<R(*)()> {
    typedef R type;
};

template<typename R, typename P1>
struct return_of<R(*)(P1)> {
    typedef R type;
    typedef P1 parameter_1;
};

void foo(int);

template<typename Func>
typename return_of<Func>::parameter_1 bar(Func f) {
    return 42;
}

// call: bar(foo);

I guess you see what this comes down to :) You can use boost function types which already has solved it: http://www.boost.org/doc/libs/1_37_0/libs/function_types/doc/html/index.html

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I ended up doing this for now -

void invoke(void (f)(), list<any>& params)
{
    f();
}

template <typename R>
void invoke(R (f)(), list<any>& params)
{
    params.push_front(f());
}

template <typename T0>
void invoke(void (f)(T0), list<any>& params)
{
    T0 t0 = any_cast<T0>(*params.begin()); params.pop_front();
    f(t0);
}

template <typename R, typename T0>
void invoke(R (f)(T0), list<any>& params)
{
    T0 t0 = any_cast<T0>(*params.begin()); params.pop_front();
    params.push_front(f(t0));
}

template <typename T0, typename T1>
void invoke(void (f)(T0, T1), list<any>& params)
{
    T0 t0 = any_cast<T0>(*params.begin()); params.pop_front();
    T1 t1 = any_cast<T1>(*params.begin()); params.pop_front();
    f(t0, t1);
}

template <typename R, typename T0, typename T1>
void invoke(R (f)(T0, T1), list<any>& params)
{
    T0 t0 = any_cast<T0>(*params.begin()); params.pop_front();
    T1 t1 = any_cast<T1>(*params.begin()); params.pop_front();
    params.push_front(f(t0, t1));
}

template <typename T0, typename T1, typename T2>
void invoke(void (f)(T0, T1, T2), list<any>& params)
{
    T0 t0 = any_cast<T0>(*params.begin()); params.pop_front();
    T1 t1 = any_cast<T1>(*params.begin()); params.pop_front();
    T2 t2 = any_cast<T2>(*params.begin()); params.pop_front();
    f(t0, t1, t2);
}

template <typename R, typename T0, typename T1, typename T2>
void invoke(R (f)(T0, T1, T2), list<any>& params)
{
    T0 t0 = any_cast<T0>(*params.begin()); params.pop_front();
    T1 t1 = any_cast<T1>(*params.begin()); params.pop_front();
    T2 t2 = any_cast<T2>(*params.begin()); params.pop_front();
    params.push_front(f(t0, t1, t2));
}

I'm lacking the full power of boost::bind - like, I can't handle method pointers - but I also realized that by doing this, I've got a stack processor. I can keep invoking methods that operator on the parameters on the stack.

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