20

I want a variadic template that simply accepts unsigned integers. However, I couldn't get the following to work.

struct Array
{
    template <typename... Sizes> // this works
    // template <unsigned... Sizes> -- this does not work (GCC 4.7.2)
    Array(Sizes... sizes)
    {
        // This causes narrowing conversion warning if signed int is supplied.
        unsigned args[] = { sizes... };
        // ...snipped...
    }
};

int main()
{
    Array arr(1, 1);
}

Any help appreciated.

EDIT: In case you're wondering, I'm trying to use variadic template to replicate the following.

struct Array
{
    Array(unsigned size1) { ... }
    Array(unsigned size1, unsigned size2) { ... }
    Array(unsigned size1, unsigned size2, unsigned size3) { ... }
    // ...
    Array(unsigned size1, unsigned size2, ..., unsigned sizeN) { ... }
};
5
  • Please show a usage example. Nov 29, 2012 at 22:58
  • And this arr(1, 1) would be a two dimensional array? Or an array with initial values {1, 1}? Nov 29, 2012 at 23:04
  • There's no syntax to take a variable number of arguments of the same type, unfortunately. :/
    – Xeo
    Nov 29, 2012 at 23:05
  • @OlafDietsche: 2D array.
    – Zach Saw
    Nov 29, 2012 at 23:05
  • @Xeo: I am looking to replicate manually expanded Array c'tor with overloaded number of unsigned arguments (I have it up to 10 before).
    – Zach Saw
    Nov 29, 2012 at 23:07

4 Answers 4

9

I'm not sure why you expected that to work. Clang tells me the error is unknown type name 'Sizes' in the declaration of the constructor. Which is to be expected, since Sizes isn't a type (or rather, a template pack of types), it's a template pack of values.

It's unclear what exactly you're trying to do here. If you pass integral values in as template parameters, what are the constructor parameters supposed to be?


Update: With your new code all you need is a static_cast<unsigned>().

struct Array
{
    template <typename... Sizes> // this works
    Array(Sizes... sizes)
    {
        unsigned args[] = { static_cast<unsigned>(sizes)... };
        // ...snipped...
    }
};
2
  • 1
    I'm trying to get rid of the narrowing conversion warning (from int to unsigned) without forcing the user of Array to specify Array arr(1u, 1u).
    – Zach Saw
    Nov 29, 2012 at 23:03
  • @ZachSaw: The entire "thing" that has the ... after it is duplicated for each argument in the template pack. It all feels slightly magical. Nov 29, 2012 at 23:25
8

If you want to accept dynamic arguments that must all be integers, you want an ordinary typename template, but check that all the types are (convertible to) unsigned integers:

#include <type_traits>

struct Array
{
    template <typename ...Args>
    explicit Array(Args ...args,
        typename std::enable_if<all_int<Args...>::value>::type * = nullptr);

    // ...
};

Now you just need the trait:

template <typename...> struct all_int;

template <> struct all_int<> : std::true_type { };

template <typename T, typename ...Rest> struct all_int<T, Rest...>
: std::integral_constant<bool,
       std::is_convertible<T, unsigned int>::value && all_int<Rest>::value>
{ }

If you prefer to make the types strict, you can also use is_same instead of is_convertible.

Another option is to forgo variadic templates entirely and make your class list-initializable by accepting a single std::initializer_list<unsigned int>, which provides considerably better numeric safety (for instance, narrowing conversions are forbidden).

6
  • The problem with this is that it will error out if you pass an int type rather than convert it to unsigned.
    – Pubby
    Nov 29, 2012 at 23:10
  • 3
    List-initialization is what prevents narrowing conversions, this is not special to std::initializer_list. Also, OP basically wants Array(unsigned... args). And it's not about them being able to convert to unsigned, it's about them already being unsigned so he doesn't get narrowing conversions in the list-initialization inside the ctor.
    – Xeo
    Nov 29, 2012 at 23:11
  • @Pubby: Isn't int convertible-to unsigned int? Maybe is_constructible is a better trait.
    – Kerrek SB
    Nov 29, 2012 at 23:11
  • @Xeo: Yes, but you can't take advantage of list initialisation without initialiser lists, non?
    – Kerrek SB
    Nov 29, 2012 at 23:12
  • struct X{ X(unsigned, unsigned){} }; X x{1,2}; // error (well, atleast when GCC correctly implements narrowing conversions as errors...)
    – Xeo
    Nov 29, 2012 at 23:13
5

Look into initializer list

You could specify it like

struct Array
{
    Array(std::initializer_list<unsigned> sizes)
    {
        for (auto i = sizes.begin(); i != sizes.end(); ++i)
            ...
    }
}

Although, usage would change to

Array arr = {1, 1};
2
  • 1
    I'm trying not to break the existing code using (). Using std::initializer_list would need me to change it to {}.
    – Zach Saw
    Nov 29, 2012 at 23:13
  • @ZachSaw Too bad, you cannot change that. Anyway, I added the change in usage to my answer. Nov 29, 2012 at 23:20
1

Backstroy

When trying to achieve more or less what the OP tried to do, I stumbled across this rather old question. I had implemented something similar to @Kerrek SB 's solution, and was looking for a way to 'generalize' this behavior (by providing a predicate as templated struct which is evaluated for not having to re-implement the 'recursion' for different predicates). However while doing so, I realized that the new CPP20 Concepts feature solves this issue in a very elegant way, and hence want to share this solution. I hadn't considered concepts as solution, as I read somewhere that they cannot be declared in a recursive way (which, as I found out, is not a practical burden, because I can refer to a recursive type trait solution).

Solution

In this solution I define a custom concept, because I consider most real-world use-cases to not be covered by concepts provided by the STL, which could be used in this case. Simply replacing the 'typename' by the concept in use, the concept is applied to all of the provided template arguments.

#include <concepts>
#include <type_traits>

template <typename T> concept unsignedType = std::is_unsigned_v<T>; 

struct Array {
  template <unsignedType... Sizes> Array(Sizes... sizes) {
    unsigned args[] = {sizes...};
  }
};

int main() {
  unsigned k = 12;
  Array arr(k, 1u); 
  //Array arr(33);  // fails as 33 is not unsigned
}

Compilation

I am using gcc-10, in previous versions concept features might not be available as this feature is experimental: g++-10.0 -std=c++2a file.cc

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