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I trying to build a (bit) nicer way to create a delegate from the Impossibly Fast Delegate by using type deduction. However, I'm running into some problems.

Here's the function I'm trying to simplify :

template<typename T, void(T::*TMethod)(E)>
static Delegate<E> create(T * object) { /* ... */ }

When you call this function, it looks like this :

auto del = Delegate<int>::create<A, &A::foo>(&a);

What I would like to end up with is something like :

auto del = create_delegate(&a, &A::foo);

I thought that decltype could do the trick, but somehow it doesn't work (using VS2012) :

template<typename E, typename T>
Delegate<E> create_delegate(T * obj, void (T::*method)(E))
    return Delegate<E>::create<T, decltype(method)>(obj);

I get error C2975: 'Delegate::create' : invalid template argument for 'TMethod', expected compile-time constant expression.

Any ideas?

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Is it necessary for you to be able to decide the method at runtime, or is compile-time good enough ? –  Martin J. Feb 16 '14 at 18:27
You're passing the address of the member function as a parameter to the function create_delegate. Being a parameter, it is not a constant inside the function. Also, you need to pass the value of that address to Delegate::create, not the type. –  dyp Feb 16 '14 at 18:31
@MartinJ Hmm, I'm not sure. You mean, doing something like create_delegate<&A::foo>(&a) ? If so, I think it's fine. –  subb Feb 16 '14 at 18:31
@dyp Oh, right. This is looking more impossible that I thought. –  subb Feb 16 '14 at 18:33
@subb AFAIK there's no general way to simplify it. The general problem is that for template<typename T, T value> integral_constant;, you cannot deduce the type and pass the value from the same expression (AFAIK). The only way I know is to use a macro that duplicates the expression, e.g. #define MAKE_CONSTANT(EXPR) integral_constant<decltype(EXPR), EXPR>. Similarly, deduce(&A::foo).value<&A::foo>() is possible, where deduce deduces the type, and value passes the value to the template. –  dyp Feb 16 '14 at 18:34

1 Answer 1

Why not using std::function?

#include <functional>
#include <iostream>

struct X {
    void fn(int) {
        std::cout << "Hello\n";

template<typename T, typename R, typename A>
std::function<R(A)> create_delegate(T& obj, R (T::*method)(A))
    return std::bind(method, &obj, std::placeholders::_1);

int main() {
    X x;
    auto delegate = create_delegate(x, &X::fn);
share|improve this answer
The problem with std::function is they are not comparable. This means that I cannot store them in a container and later remove them by searching the container. –  subb Feb 16 '14 at 22:40
@subb You can write a comparison via std::function::target, but admittedly not in all cases. –  dyp Feb 17 '14 at 0:23
@dyp interesting. I'll look into it. –  subb Feb 17 '14 at 15:06

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