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I'm trying to write a function that would map a function over multiple iterators. It would be something like

template <class Fun>
fun_over_variadic_args(Fun fun) { }

template <class Fun, class First, class Rest...> 
fun_over_variadic_args(Fun fun, First& first, Rest&... rest) { 
  fun(first); 
  fun_over_variadic_args(fun, rest...);
}

namespace { 
  template <class T> struct thunk_inc { 
    decltype(T::operator++()) operator()(T& t) { return ++t; } 
  }; 
}

template <class Fun, class MainIterator, class RestOfIterators...>
std::tuple<MainIt&, RestOfIts&...> map_over_iterators(Fun fun, MainIt& it, MainIt& end, RestOfIts&... rest) {
const thunk_inc();
for (; it!=end; fun_over_variadic_args(thunk_inc, it, rest...)) {
      // Do something
    }
}

The problem arises then that the function Fun in fun_over_variadic_args needs to be templated which means it cannot be a lambda and cannot be a local function object which entails polluting the global namespace.

Does someone know a better solution to this?
Thanks

Edit: Note that I want the maximum speed possible so solutions that preserve the possibility of inlining all the function calls would be preferred.

Edit2: Just realized that I could use anonymous namespaces to limit the scope of function Fun to one file. I would still love to know a neater solution though if one exists.

Alternate solution I found that I can apply a function fun to a variadic argument pack as long as I pass the result to another function. So if I have a function fun which I want to apply to every argument, I can do something like

template <class... T>
void foo(T... t) { }

template <class... Arg>
void test(Arg... arg) {
  foo(fun(arg)...); // Works!
  fun(arg)...; // Doesn't work! 
}

Clarification for alternate solution Using this however means that fun cannot return void

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Could you give an example of how you would use this, or even better say what you are trying to achieve? –  Kerrek SB Jun 14 '11 at 19:56
    
@Kerrek SB: The specific solution for fun_over_variadic_args would be used in map_over_iterators. In general, it could have a use anywhere where one needs to apply a function to multiple values which are specified as variadic arguments. –  Opt Jun 14 '11 at 20:02
    
@Sid: Would you mind making up a minimal example that would show the actual use of this object? –  Kerrek SB Jun 14 '11 at 20:06
    
@Kerrek SB: Wrote the code for map_over_iterators that demonstrates the usage of fun_over_variadic_args –  Opt Jun 14 '11 at 20:15
1  
Note that this could be achieved trivially in C++03 with boost::zip_iterator + boost::fusion::fused. –  ildjarn Jun 14 '11 at 20:50

1 Answer 1

up vote 1 down vote accepted

Alright, given your additional description of the problem, perhaps something variadic like this will do:

template <typename ItHead, typename... ItTail>
void advance_iterators(ItHead & it, ItTail ...others)
{
  ++it;
  advance_iterators(others...);
}

template <typename It>
void advance_iterators(ItHead & it)
{
  ++it;
}

template <typename Fun, typename ItMain, typename ...ItOthers>
apply_helper(Fun & f, ItMain it, ItOthers ...others)
{
   f(*it);
   apply_helper(f, others...);
}

template <typename Fun, typename ItMain, typename ...ItOthers>
apply_helper(Fun & f, ItMain it)
{
   f(*it);
}

template <typename Fun, typename ItMain, typename ...ItOthers>
apply (Fun & f, ItMain begin, ItMain end, ItOthers ...others)
{
  while (begin != end)
  {
    apply_helper(f, begin, others...);
    advance_iterators(begin, others...);
  }
}

The obvious restrictions here are that Fun has to work on all the value-types of the iterators, and that the ranges have to be equal. The function object is passed by reference, you can modify that to taste.

Update: If I misunderstood and you want f to operate on all values simultaneously, then you should get rid of apply_helper and just call f(begin, others...) and make a function f that takes all those iterators.

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