6

Is there a way for a method, which receives two functors as arguments, to find out if they are pointing to the same function? Specifically, having a struct like this:

struct FSMAction {
    void action1() const { std::cout << "Action1 called." << std::endl; }
    void action2() const { std::cout << "Action2 called." << std::endl; }
    void action3() const { std::cout << "Action3 called." << std::endl; }

private:
    // Maybe some object-specific stuff.
};

And a method like this:

bool actionsEqual(
    const std::function<void(const FSMAction&)>& action1, 
    const std::function<void(const FSMAction&)>& action2)
{
    // Some code.
}

Is there "some code" that will return true only for:

actionsEqual(&FSMAction::action1, &FSMAction::action1)

But not for:

actionsEqual(&FSMAction::action1, &FSMAction::action2)

Maybe this question doesn't make any sense (first clue would be that there seems to be nothing on the internet about it...). If so, could you give a hint, why, and if there are ways to accomplish something "similar"? (Basically, I'd like to have a set of callbacks with only "unique" items in the above-outlined sense.)

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  • 7
    This sounds like an XY problem. What are you trying to solve where you need to make sure you have the same function being used? – NathanOliver Apr 15 at 15:04
  • Could you use member pointers instead of std::function? – HolyBlackCat Apr 15 at 15:04
  • 2
    the question could be a bit more clear. In the title you ask for comparing functors, but the problems seems not comparing two Actions, but rather finding out if two std::functions reference the same method of Action. How exactly do you intend to use the Actions? If it was a "normal functor" with an operator() you would probably simply provide a Action::operator== and be done with it... – user463035818 Apr 15 at 15:08
  • 1
    Note that there's a difference between deciding if two pointers point to the same function vs. two pointers pointing to different functions that do the same thing. The former is just a pointer comparison; the latter would be more difficult. – Caleb Apr 15 at 15:09
  • @NathanOliver Maybe it is an XY problem... I'd like to allow users of my class (which is basically a finite-state machine) to assign to each state a callback to be triggered when entering that state. If the callback is equal for two states, I want it to be recognized as the same. – Duke Apr 15 at 15:11
3

A raw function is eventually a pointer. You can dig it out of std::function with std::function::target and then it's simply a comparison of void*.

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  • 1
    That's not that easy. It could be virtual functions which cannot be described with just one pointer. – Scheff Apr 15 at 15:09
  • 5
    No they are not. A member function is something special. You can't cast a member function pointer to a raw function pointer. – NathanOliver Apr 15 at 15:09
  • 2
    @NathanOliver target() seems to work for member pointers as well: coliru.stacked-crooked.com/a/76e4e6a1e58c8d97 Apparently it returns a pointer to the stored type-erased object. – HolyBlackCat Apr 15 at 15:11
  • 1
    @HolyBlackCat Oh, Cool. Missed that it was a function template so you could specify the pointer you want. I though it was using the function type – NathanOliver Apr 15 at 15:12
  • @HolyBlackCat How about this? Changed Demo of Cat ;-) (I'm not sure if it's rather a pro or con.) – Scheff Apr 15 at 15:15
2

Directly using std::function::target<T>() as suggested in the Michael Chourdakis's answer is problematic, since to use it you have to know the actual type stored in std::function:

Return value

A pointer to the stored function if target_type() == typeid(T), otherwise a null pointer.

E.g. by using T = void (A::*)() const you restrict yourself to only using void() const member functions of class FSMAction. At this point std::function starts to be no better than a plain member function pointer.

I suggest writing a wrapper for std::function that implements == / != using type erasure. Here's a minimal implementation:

#include <functional>
#include <iostream>
#include <utility>

template <typename T>
class FancyFunction;

template <typename ReturnType, typename ...ParamTypes>
class FancyFunction<ReturnType(ParamTypes...)>
{
    using func_t = std::function<ReturnType(ParamTypes...)>;
    func_t func;
    bool (*eq)(const func_t &, const func_t &) = 0;

  public:
    FancyFunction(decltype(nullptr) = nullptr) {}

    template <typename T>
    FancyFunction(T &&obj)
    {
        func = std::forward<T>(obj);    
        eq = [](const func_t &a, const func_t &b)
        {
            return *a.template target<T>() ==
                   *b.template target<T>();
        };
    }

    explicit operator bool() const
    {
        return bool(func);
    }

    ReturnType operator()(ParamTypes ... params) const
    {
        return func(std::forward<ParamTypes>(params)...);
    }

    bool operator==(const FancyFunction &other) const
    {
        if (func.target_type() != other.func.target_type())
            return 0;

        if (!eq)
            return 1;

        return eq(func, other.func);
    }

    bool operator!=(const FancyFunction &other) const
    {
        return !operator==(other);
    }
};


struct A
{
    void foo() {}
    void bar() {}
};

int main()
{
    FancyFunction<void(A &)> f1(&A::foo), f2(&A::foo), f3(&A::bar);
    std::cout << (f1 == f2) << '\n';
    std::cout << (f1 == f3) << '\n';
}

Try it live

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  • 1
    I like your solution, and I will definitely keep it in mind for the future! I still accepted Michael Chourdakis's answer, though, since it is more lightweight and worked fine for my specific problem. Anyway, people reading this can decide on their own if they need your more general approach... – Duke Apr 16 at 18:47

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