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How do I initialize std::array<T, n> if T is not default constructible?

I know it's possible to initialize it like that:

T t{args};
std::array<T, 5> a{t, t, t, t, t};

But n for me is template parameter:

template<typename T, int N>
void f(T value)
{
    std::array<T, N> items = ??? 
}

And even if it wasn't template, it's quite ugly to repeat value by hand if n is too large.

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Yes, you can write a function or two to generate them. –  chris Aug 28 '13 at 20:03
    
Will the 'fill()` help? –  Arun Aug 28 '13 at 20:04
    
@Arun, no. It may be called only on already constructed array. –  RiaD Aug 28 '13 at 20:04
1  
std::array is an aggregate, there is not that much you can do about it –  David Rodríguez - dribeas Aug 28 '13 at 20:09
1  
@Nawaz: Very creative. It seems that there is not that much you can do, although you can to this :) +1 –  David Rodríguez - dribeas Aug 28 '13 at 20:57

2 Answers 2

up vote 18 down vote accepted

Given N, you could generate a sequence-type calledseq<0,1,2,3,...N-1> using a generator called genseq_t<>, then do this:

template<typename T, int N>
void f(T value)
{
     //genseq_t<N> is seq<0,1,...N-1>
     std::array<T, N> items = repeat(value, genseq_t<N>{});
}

where repeat is defined as:

template<typename T, int...N>
auto repeat(T value, seq<N...>) -> std::array<T, sizeof...(N)> 
{
   //unpack N, repeating `value` sizeof...(N) times
   //note that (X, value) evaluates to value
   return {(N, value)...}; 
}

And the rest is defined as:

template<int ... N>
struct seq
{
   using type = seq<N...>;

   static const std::size_t size = sizeof ... (N);

   template<int I>
   struct push_back : seq<N..., I> {};
};

template<int N>
struct genseq : genseq<N-1>::type::template push_back<N-1> {};

template<>
struct genseq<0> : seq<> {};

template<int N>
using genseq_t = typename genseq<N>::type;

Online demo

Hope that helps.

share|improve this answer
1  
Thanks for posting this. I knew I've seen something like this before and I didn't quite finish my attempted solution. –  chris Aug 28 '13 at 20:30
    
@chris: Posted a demo also. –  Nawaz Aug 28 '13 at 20:33
    
Why is valuelist an integral_constant as an aside? –  Yakk Aug 29 '13 at 2:24
    
@Yakk: So that you can know the size of the list. valuelist<0,1,2,3>::value is 4. In this example, this is not needed, but it is good to have this feature. –  Nawaz Aug 29 '13 at 2:36

Following will solve your issue:

#if 1 // Not in C++11, but in C++1y (with a non linear better version)

template <std::size_t ...> struct index_sequence {};

template <std::size_t I, std::size_t ...Is>
struct make_index_sequence : make_index_sequence<I - 1, I - 1, Is...> {};

template <std::size_t ... Is>
struct make_index_sequence<0, Is...> : index_sequence<Is...> {};

#endif

namespace detail
{
    template <typename T, std::size_t ... Is>
    constexpr std::array<T, sizeof...(Is)>
    create_array(T value, index_sequence<Is...>)
    {
        // cast Is to void to remove the warning: unused value
        return {{(static_cast<void>(Is), value)...}};
    }
}

template <std::size_t N, typename T>
constexpr std::array<T, N> create_array(const T& value)
{
    return detail::create_array(value, make_index_sequence<N>());
}

So test it:

struct NoDefaultConstructible {
    constexpr NoDefaultConstructible(int i) : m_i(i) { }
    int m_i;
};

int main()
{
    constexpr auto ar1 = create_array<10>(NoDefaultConstructible(42));
    constexpr std::array<NoDefaultConstructible, 10> ar2 = create_array<10>(NoDefaultConstructible(42));

    return 0;
}
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