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I would like to understand why this fails :

template <class T, class U>
T apply(U stuff, std::function<T (U)> function) { return function(stuff); }

(This is not a real code of course).

On g++-4.8, I get "template argument 1 is invalid".

Thanks !


Edit: thorough example : Basically, what I want to do is to enforce a particular prototype for the MapFunction and ReductionFunction types.

I would like:

  • MapFunction : typeof(*InputIterator) -> T
  • ReductionFunction : (T, T) -> T

Code:

template <class T, class InputIterator, class ReductionFunction>
T mapReduce_n(InputIterator in, 
    unsigned int size, 
    T baseval, 
    std::function<T (decltype(*InputIterator))> map, 
    ReductionFunction reduce)
{
    T val = baseval;

    #pragma omp parallel
    {
        T map_val = baseval;

        #pragma omp for nowait
        for (auto i = 0U; i < size; ++i)
        {
            map_val = reduce(map_val, map(*(in + i)));
        }

        #pragma omp critical
        val = reduce(val, map_val);
    }

    return val;
}

Edit 2 :

I think that the std::function<T (decltype(*InputIterator))> map part, is wrong, it should be : std::function<T (decltype(*in))> map.

However this fails with :

mismatched types 'std::function<T(decltype (* in))>' and 'double (*)(std::complex<double>)'

I also tried iterator traits :

std::function<T (std::iterator_traits<InputIterator>::value_type)> map

But it fails with :

type/value mismatch at argument 1 in template parameter list for 
'template<class _Signature> class std::function'

error:   expected a type, got '(T)(std::iterator_traits<_II>::value_type)'

Third edit:

Another trial, I think I start getting close!

std::function<T (typename std::iterator_traits<InputIterator>::value_type)> map

Fails with :

mismatched types 
'std::function<T (typename std::iterator_traits<_II>::value_type)>' 
and 
'double (*)(std::complex<double>)'

Here is my call :

MathUtil::mapReduce_n(
   in, // const std::complex<double> * const
   conf.spectrumSize(), // unsigned int
   0.0, 
   MathUtil::CplxToPower, // double CplxToPower(const std::complex<double> val);
   std::plus<double>())
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1  
This does not fail. Please post actual code that fails. –  n.m. Aug 22 '13 at 6:47
    
You're not showing any std::function in the edited code. Post the code that fails, not the code "before the failing modifications." –  Angew Aug 22 '13 at 7:06
    
Sorry. I modified to reflect what I ideally want. –  Jean-Michaël Celerier Aug 22 '13 at 7:47
    
I recomend you to use std::forward() to get perfect forwarding in the function call. –  Manu343726 Aug 22 '13 at 7:58
    
@Manu343726, I don't know where you could use forward<>() properly in this function. It looks to me like all the arguments are used multiple times in loops or parallel calls, so none of them could tolerate pilfering (since forward<T>() either transforms into effectively a harmless pass-thru or a move() depending on T). –  Adam H. Peterson Aug 22 '13 at 14:11

1 Answer 1

I'd think you get answers faster if you'd provide a minimalist example showing the problem rather than embedding the problem into a fairly large amount of code making the problem harder to see. Also, editing the post can amount to reducing the text, removing irrelevant material. As far as I see the problem, you want to pass a std::function<Signature> object which can consume the values provided by an iterator. What you tried basically amounts to this (you didn't post a complete example although you posted unrelated snippets of code):

template <typename T, typename Iterator>
void f(Iterator it, T value, std::function<T(decltype(*it))> fun);

double fun(std::complex<double>);
int main() {
    std::complex<double> values[1];
    f(values, 0.0, fun);
}

This code tries to deduce T from the second and the third argument. However, it fails because the third argument isn't of the expected form, i.e., it is not a std::function<Signature>. Instead, the type of the third argument is double(*)(std::complex<T double>). A work-around could be to pass an argument of the correct type and this, indeed, matches the function template:

f(values, 0.0, std::function)>(fun));

Of course, this isn't too pretty and makes f() harder to use than necessary. A better solution is to get an implicit conversion and not have the third argument participate in template argument deduction. The easiest way to do that is to not mention T directly:

template <typename T>
struct hide_type
{
    typedef T type;
};

template <typename T, typename Iterator>
void f(Iterator it,
       T        ,
       std::function<typename hide_type<T>::type(decltype(*it))>);

Using a type nested inside hide_type<T> results in T not being deducible from the third argument and, instead, an implicit conversion possibly being attempted if the third argument doesn't match the type. Finally, you had problems using value_type to specify the argument. Although the argument to the function isn't really the problem, you can use value_type, too, but you need to use it with typename to indicate that the dependent name value_type is a type:

template <typename T, typename Iterator>
void f(Iterator it,
       T        ,
       std::function<typename hide_type<T>::type(typename std::iterator_traits<Iterator>::value_type>);

The signature still needs to be formulated in a way which doesn't cause it to be considered for template argument deduction.

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