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I have a class something like this:

template <typename T>
struct operation {
    typedef T result_type;
    typedef ::std::shared_ptr<operation<T> > ptr_t;

I have a functor that would match this ::std::function type:

::std::function<int(double, ::std::string)>

I want to create a functor that has a signature something like this:

operation<int>::ptr_t a_func(operation<double>::ptr_t, operation< ::std::string>::ptr_t);

I want to do this in an automated fashion so I can create a similar functor for any given ::std::function type.

Lastly, I would like to put this wrinkle in. This:

::std::function<int(operation<double>::ptr_t, ::std::string)>

should result in this:

operation<int>::ptr_t a_func(operation<double>::ptr_t, operation< ::std::string>::ptr_t);

Because if a functor already accepts an operation<T>::ptr_t that means it understands what they are and is willing to deal with their asynchronous nature itself.

How would I do this? I have a naive and partially working attempt here:

template <typename argtype>
struct transform_type {
   typedef typename operation<argtype>::ptr_t type;

template <typename ResultType, typename... ArgTypes>
::std::function<typename transform_type<ResultType>::type(typename transform_type<ArgTypes...>::type)>
   return nullptr;

It doesn't detect arguments that are already of type std::shared_ptr<operation<T> > though. And this specialization of transform_type fails to compile:

template <typename argtype>
struct transform_type<typename operation<argtype>::ptr_t>
   typedef typename stub_op<argtype>::ptr_t type;
share|improve this question
What is the operation struct for? What do you hope to achieve with ptr_t? Your typedef seems problematic. –  devil Apr 26 '12 at 2:36
@devil: operation in the final version will represent a deferred asynchronous operation. It has no blocking methods for retrieving the result, but instead will notify dependents (things that care about the result) that one is available through a callback mechanism. The wrapping function will call the wrapped function once all the arguments become available. –  Omnifarious Apr 26 '12 at 2:50
::std::function<int(operation<double>::ptr_t, ::std::string)> this line, do you mean ::std::function<int(double, ::std::string)>? –  user2k5 Apr 26 '12 at 2:52
also typedef ::std::shared_ptr<operation<T> >::ptr_t; in the operation definition should be typedef ::std::shared_ptr<operation<T> > ptr_t;?? –  user2k5 Apr 26 '12 at 2:59
oh, that means if it is already in operation<double>::ptr_t type, then do not do the transform, but it is not, then do the transform to operation<double>::ptr_t. Is this what you want? –  user2k5 Apr 26 '12 at 3:07

2 Answers 2

template<template<typename...> class F, typename Sig>
struct transform;

template<template<typename...> class F, typename R, typename... A>
struct transform<F, R(A...)> {
    using type = typename F<R>::ptr_t(typename F<A>::ptr_t...);

Usage looks like:

template<typename Sig>
void foo(std::function<Sig> f)
    using transformed_type = typename transform<operation, Sig>::type;
    std::function<transformed_type> g;

As for the specialization to avoid transforming types that are already in the desired form:

template<typename T>
struct operation<std::shared_ptr<T>> {
    using ptr_t = std::shared_ptr<T>;
    using result_type = ptr_t; // Or perhaps this needs to be T, you haven't said
share|improve this answer
One possible fly, it would be possible to have an operation< ::std::shared_ptr<operation<int> > >. With that specialization of operation <T> I'm not sure that could happen. –  Omnifarious Apr 26 '12 at 15:11
If operation< ::std::shared_ptr<operation<int> > >::ptr_t is ::std::shared_ptr<operation<int> > and not std::shared_ptr< ::std::shared_ptr<operation<int> >> then it's just not possible: you're trying to find the inverse of a non-injective function. –  R. Martinho Fernandes Apr 26 '12 at 16:38
@R.MartinhoFernandes: operation< ::std::shared_ptr<operation<int> > >::ptr_t is ::std::shared_ptr< operation< ::std::shared_ptr<operation<int> > > >. –  Omnifarious Apr 26 '12 at 19:47
In that case, this should work fine (and yeah, I got that type wrong :S). –  R. Martinho Fernandes Apr 26 '12 at 20:03
up vote 0 down vote accepted

I believe I have figured it out with R. Martinho Fernandez's help:

template <typename T>
struct is_op_ptr {
   // Returns false_type, which has a ::value that is false.
   template <class AT>
   static constexpr std::false_type is_it_a_ptr(...);

   // Returns true_type (if enable_if allows it to exist).
   template <class AT>
   static constexpr typename ::std::enable_if<
         typename operation<typename AT::element_type::result_type>::ptr_t>::value,
      std::true_type>::type  // note the true_type return
   is_it_a_ptr(int); // no definition needed

   // do everything unevaluated
   static constexpr bool value = decltype(is_it_a_ptr<T>(0))::value;

template <typename T>
struct transform_type
   : ::std::conditional< is_op_ptr<T>::value, T, typename operation<T>::ptr_t>

This also allows me to query whether or not a type will be transformed in the construction of the wrapper function.

share|improve this answer
This could be accomplished a lot easier by way of a few template specializations IMO. –  ildjarn Apr 26 '12 at 4:17
@ildjarn: Please, tell me what they are. I'm all ears. I asked this question because I only barely know what I'm doing. :-) –  Omnifarious Apr 26 '12 at 4:20
*(reinterpret_cast<argtype *>(0)) looks like std::declval<argype&>() to me :) –  R. Martinho Fernandes Apr 26 '12 at 6:14
@Omnifarious So? You don't need constexpr for use in decltype, because it doesn't evaluate its argument. For that matter, reinterpret_cast isn't constexpr either. –  R. Martinho Fernandes Apr 26 '12 at 14:21
Ohhh. Don't do it like that. Use true_type, false_type and decltype, like this: ideone.com/w8csA, for example. –  R. Martinho Fernandes Apr 26 '12 at 16:01

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