15

How can I write an std::array concatenation function?

template <typename T, std::size_t sza, std::size_t szb>
std::array<T, sza+szb> concat (const std::array<T, sza>& aa, 
                                const std::array<T, szb>& ab)
{
    std::array<T, sza+szb> result;
    std::copy(std::begin(aa), std::end(aa), std::begin(result));
    std::copy(std::begin(ab), std::end(ab), std::begin(result) + sza);
    return result;
}

This of course doesn't work when T is not default-constructible. How can this be fixed?

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3 Answers 3

Reset to default
12

Convert the parameters to parameter-pack expansions with std::index_sequence and a helper lambda.

template <typename T, std::size_t sza, std::size_t szb>
std::array<T, sza+szb> concat (const std::array<T, sza>& aa, 
                               const std::array<T, szb>& ab)
{
    auto doit = [&]<std::size_t... ai, std::size_t... bi>
        (std::index_sequence<ai...>, std::index_sequence<bi...>)
    {
        return std::array<T, sza+szb>{aa[ai]..., ab[bi]...};
    };
    return doit(std::make_index_sequence<sza>{}, std::make_index_sequence<szb>{});
}
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2
12

Explicit template parameter list for lambdas, as shown in n. m.'s answer, were introduced in C++20.

A C++14 solution needs an helper function:

template <typename T, std::size_t... ai, std::size_t... bi>
std::array<T, sizeof...(ai) + sizeof...(bi)>
concat_impl(std::array<T, sizeof...(ai)> const& aa, 
            std::array<T, sizeof...(bi)> const& ab,
            std::index_sequence<ai...>, std::index_sequence<bi...>)
{
    return std::array<T, sizeof...(ai) + sizeof...(bi)>{
      aa[ai]..., ab[bi]...
    };
};

template <typename T, std::size_t sza, std::size_t szb>
std::array<T, sza + szb> concat (std::array<T, sza> const& aa, 
                                 std::array<T, szb> const& ab)
{
    return concat_impl(aa, ab, 
                       std::make_index_sequence<sza>{},
                       std::make_index_sequence<szb>{});
}
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6

With the help of std::tuple_cat and std::apply, you can

template <typename T, std::size_t sza, std::size_t szb>
std::array<T, sza+szb> concat(const std::array<T, sza>& aa, 
                              const std::array<T, szb>& ab)
{
  return std::apply([](auto... elems) { return std::array{elems...}; },
                    std::tuple_cat(aa, ab));
}
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3
  • 1
    Nice. But I believe std::tuple_cat isn't required to support any "tuple-like" container until c++23 (despite most implantations actually going ahead and supporting them).
    – StoryTeller - Unslander Monica
    Feb 6 at 10:03
  • There was no definition of so-called tuple-like until C++23, however, I believe that the standard clearly specified std::tuple_cat's support for std::arrays before C++23.
    – 康桓瑋
    Feb 6 at 10:12
  • It did not. There was an inforormative note, at best, and the preconditions did not give leeway other than making it UB.
    – StoryTeller - Unslander Monica
    Feb 6 at 10:15

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