Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am attempting to express Haskell's Cont monad in C++ and am confused on translating the typing to C++.

My current approach is to create two classes for the bind and return operations. These hold a value type A and return type R.

template<typename _R, typename _A>
class Cont
{
public:
    typedef _A A;
    typedef _R R;

    virtual R Run(const std::function<R(A)>& k) const=0;
};

template<typename M, typename F,
    typename B = typename std::remove_pointer<typename std::result_of<F(typename M::A)>::type>::type,
    typename R = typename B::R,
    typename A = typename B::A>
class BindCont : public Cont<R, A>
{
    M* m;
    F f;
public:
    explicit BindCont(M* m, const F& f) : m(m), f(f) { }

    virtual R Run(const std::function<R(A)>& k) const
    {
        return m->Run([&](typename M::A x) { return f(x)->Run(k); });
    }
};

template<typename A>
class ReturnCont : public Cont<A, A>
{
    A x;
public:
    explicit ReturnCont(A x) : x(x) { }

    virtual A Run(const std::function<A(A)>& k) const
    {
        return k(x);
    }
};

template<typename M, typename F>
BindCont<M, F>* Bind(M* m, const F& f) { return new BindCont<M, F>(m, f); }

template<typename A>
ReturnCont<A>* Return(A x) { return new ReturnCont<A>(x); }

This works for composing objects of the same type, but understandably fails when Bind converts to another type:

// This works as the resulting Cont is the same as the Cont being bound.
auto m1 = Bind(Return(4), [](int x)
{
    return (x < 10 ? Return(10) : Return(x));
});

// This fails as when m is run in BindCont, it expects an int, not a const char*
// to be returned.
auto m2 = Bind(Return(4), [](int x)
{
    return (x < 10 ? Return("abc") : Return("xyz"));
});   

Other Attempts

My first attempt only relied on A and determined return type R from a generic functor in Run:

template<typename A>
class ReturnCont : public Cont<A>
{
    A x;
public:
    explicit ReturnCont(A x) : x(x) { }

    template<typename K>
    typename std::result_of<K(A)>::type Run(const K& k) const { return k(x); }
};

This however, while it fixes the problem with bind's implementation, requires the compile-time decision of which implementation of Cont to use be made at runtime, as the generic Run interface cannot be expressed on the base class Cont.


Questions

Based on the original code, I have two questions:

  • Are the types of R and A in BindCont correct? I have tried adding explicit R and A types for both BindCont and ReturnCont but can't seem to get them correct.
  • How can BindCont::Run be implemented to hook computations of different types together?

Edit

I should also note that having Run return void works in the original case and allows bind to be correctly implemented. This may be acceptable for certain cases but having a return value is preferable.

share|improve this question
    
Don't just write Haskell in C++, it doesn't work. C++ is missing important type-system-level features for proper monad-handling. Try to find an idiomatic C++ solution to your original problem (or maybe ask a question about it - about the problem, not a solution you think is best). –  Xeo Jul 10 '13 at 6:38

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Browse other questions tagged or ask your own question.