21

Is it possible to typedef a parameter pack? For example

template<class T, class... Args>
struct A
{
    typedef T Type; // We typedef it, then its derived class can use it.
                    // How about for parameter packs?

    // Option 1:
    typedef Args Arguments;

    // Option 2:
    using Arguments = Args;

    // Option 3: I can put in a tuple, but how can I untuple it to a pack
    typedef tuple<Args...> Tuple;
};

I want to using the above technique to implement the following

template<int... VALUES>
struct IntegralSequence
{
    enum { SIZE = sizeof...(VALUES) };

    template <unsigned I>
    struct At
    {
        enum { VALUE = typename tuple_element<I, 
                       tuple<integral_constant<int, VALUES>...>>::type::value
             };
    };
};

template<unsigned N>
struct AscendingSequence
{
    typedef IntegralSequence<AscendingSequence<N-1>::VALUES..., N> Type;
    using VALUES = Type::VALUES; // if it works
};

template<>
struct AscendingSequence<1>
{
    typedef IntegralSequence<0> Type;
    using VALUES = Type::VALUES; // if it works
};
3
  • 3
    "I can put in a tuple, but how can I untuple it to a pack" With partial specialization, deduction or the indices trick.
    – dyp
    Apr 9, 2014 at 16:12
  • You can use Args... args;
    – user1551592
    Apr 9, 2014 at 16:19
  • If you can coarsely describe the use case, i.e. where you want to unpack them, it might be easier to construct a working example. (@dyp gave three possibilities but they are each suited for a limited set of use cases)
    – leemes
    Apr 9, 2014 at 16:19

1 Answer 1

Reset to default
26

You can pack them in a tuple, or in a arbitrary empty class template (I prefer to call it pack):

template<typename... Args>
struct pack { };

template<class T, class... Args>
struct A
{
    using args = pack<Args...>;
};

If you are then given A e.g. in function template and you want to deduce Args..., you can do it like this:

template<typename... Args, typename A>
void f(pack<Args...>, A a) { /* use Args... here */ }

template<typename A>
void f(A a) { f(typename A::args(), a); }

pack being empty is convenient in situations like that. Otherwise you'd need some other means to pass args without actually passing a tuple that contains data (e.g. wrapping it into yet another empty struct).

Or, in a class template specialization:

template<typename T, typename = typename T::args>
struct B_impl;

template<typename T, typename... Args>
struct B_impl <T, pack<Args...> >
{
    // use Args... here
};

template<typename T>
using B = B_impl<T>;

I guess these are the options of deduction and partial specialization that @dyp mentioned.

EDIT This is in response to the edited question. Ok, this is clearly an XY problem. If IntegralSequence is all you need, you can use std::make_integer_sequence in C++14 or check my answer to another question just a few minutes ago for an efficient implementation.

6
  • 2
    +1 for using wrapper type other than tuple, it's all about separation of concerns.
    – Casey
    Apr 9, 2014 at 16:26
  • Just want to implement make_integer_sequence by myself and pops out this question.
    – user1899020
    Apr 9, 2014 at 16:44
  • @user1899020 I don't believe it! This looks like an X-ABCDEF-Y problem :-)
    – iavr
    Apr 9, 2014 at 16:47
  • As a bikeshed, I like calling pack types: describe its contents, not its source, sort of. Plus types are not the only kind of parameter pack.
    – Yakk - Adam Nevraumont
    Apr 9, 2014 at 16:55
  • 1
    @Yakk True. Unfortunately, in my projects, I have a namespace called types where all metaprogramming takes place :-)
    – iavr
    Apr 9, 2014 at 17:36

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