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I have a function which takes one parameter with a default value. Now I also want it to take a variable number of parameters and forward them to some other function. Function parameters with default value have to be last, so... can I put that parameter after the variadic pack and the compiler will detect whether I'm supplying it or not when calling the function?

(Assuming the pack doesn't contain the type of that one last parameter. If necessary, we can assume that, because that type is generally not supposed to be known to the user, otherwise it's considered as wrong usage of my interface anyway....)

template <class... Args>
void func (Args&&... args, SomeSpecialType num = fromNum(5))
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1 Answer 1

up vote 8 down vote accepted

No, packs must be last.

But you can fake it. You can detect what the last type in a pack is. If it is SomeSpecialType, you can run your func. If it isn't SomeSpecialType, you can recursively call yourself with your arguments forwarded and fromNum(5) appended.

If you want to be fancy, this check can be done at compile time (ie, a different overload) using SFINAE techniques. But that probably isn't worth the hassle, considering that the "run-time" check will be constant on a given overload, and hence will almost certainly be optimized out, and SFINAE shouldn't be used lightly.

This doesn't give you the signature you want, but it gives you the behavior you want. You'll have to explain the intended signature in comments.

Something like this, after you remove typos and the like:

// extract the last type in a pack.  The last type in a pack with no elements is
// not a type:
template<typename... Ts>
struct last_type {};
template<typename T0>
struct last_type<T0> {
  typedef T0 type;
template<typename T0, typename T1, typename... Ts>
struct last_type<T0, T1, Ts...>:last_type<T1, Ts...> {};

// using aliases, because typename spam sucks:
template<typename Ts...>
using LastType = typename last_type<Ts...>::type;
template<bool b, typename T=void>
using EnableIf = typename std::enable_if<b, T>::type;
template<typename T>
using Decay = typename std::decay<T>::type;

// the case where the last argument is SomeSpecialType:
  typename... Args,
void func( Args&&... args ) {
  // code

// the case where there is no SomeSpecialType last:    
  typename... Args,
      typename std::decay<LastType<Args...>>::type,
void func( Args&&... args ) {
  func( std::forward<Args>(args)..., std::move(static_cast<SomeSpecialType>(fromNum(5))) );

// the 0-arg case, because both of the above require that there be an actual
// last type:
void func() {
  func( std::move(static_cast<SomeSpecialType>(fromNum(5))) );

or something much like that.

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So it's like a workaround, it's a different signature but the same behavior... I see. Actually I was planning to remove that parameter in the future, so maybe it's not worth the effort (and the signature would be confusing). Can you show me a simple example? –  cfa45ca55111016ee9269f0a52e771 Feb 11 '13 at 2:53
@fr33domlover I sketched out the design. Hasn't been compiled, let alone debugged, but the fundamentals should be there. –  Yakk Feb 11 '13 at 3:24
Thanks, I'll try it if I don't just decide to remove the single parameter. It looks complicated, and the signature isn't kept, so it may not be worth the trouble... anyway thanks –  cfa45ca55111016ee9269f0a52e771 Feb 11 '13 at 3:30

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