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.

problem, not a solution you think is best). – Xeo Jul 10 '13 at 6:38