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Factory function of std::array
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#include <array> | |
#include <functional> | |
template <typename... T> | |
using common_type_t = typename std::common_type<T...>::type; | |
template <typename T> | |
using remove_cv_t = typename std::remove_cv<T>::type; | |
template <bool, typename T, typename... U> | |
struct lazy_conditional_c; | |
template <typename T> | |
struct lazy_conditional_c<true, T> | |
{ | |
using type = typename T::type; | |
}; | |
template <typename T, typename U> | |
struct lazy_conditional_c<true, T, U> | |
{ | |
using type = typename T::type; | |
}; | |
template <typename T, typename U> | |
struct lazy_conditional_c<false, T, U> | |
{ | |
using type = typename U::type; | |
}; | |
template <typename V, typename T, typename... U> | |
using if_else = lazy_conditional_c<V::value, T, U...>; | |
template <typename V, typename T, typename... U> | |
using If = typename if_else<V, T, U...>::type; | |
template <typename T> | |
struct identity_of | |
{ | |
using type = T; | |
}; | |
template <template <typename> class F, typename... T> | |
struct no_type : std::true_type {}; | |
template <template <typename> class F, typename T1, typename... T2> | |
struct no_type<F, T1, T2...> : | |
std::integral_constant | |
< | |
bool, | |
not F<T1>::value and no_type<F, T2...>::value | |
> | |
{}; | |
template <template <typename> class F, template <typename> class G> | |
struct composed | |
{ | |
template <typename T> | |
using call = F<typename G<T>::type>; | |
}; | |
template <typename T> | |
struct _is_reference_wrapper : std::false_type {}; | |
template <typename T> | |
struct _is_reference_wrapper<std::reference_wrapper<T>> : std::true_type {}; | |
template <typename T> | |
using is_reference_wrapper = | |
composed<_is_reference_wrapper, std::remove_cv>::call<T>; | |
template <typename V = void, typename... T> | |
constexpr auto make_array(T&&... t) | |
-> std::array | |
< | |
If | |
< | |
std::is_void<V>, | |
std::common_type<T...>, | |
identity_of<V> | |
>, | |
sizeof...(T) | |
> | |
{ | |
static_assert(not std::is_void<V>() or | |
no_type | |
< | |
composed | |
< | |
is_reference_wrapper, | |
std::decay | |
> | |
::call, | |
T... | |
>(), "T shall not be reference_wrapper"); | |
return {{ std::forward<T>(t)... }}; | |
} | |
template <size_t... I> | |
struct _indices {}; | |
template <size_t N, size_t... I> | |
struct _build_indices : _build_indices<N - 1, N - 1, I...> {}; | |
template <size_t... I> | |
struct _build_indices<0, I...> : _indices<I...> {}; | |
template <typename T, size_t N, size_t... I> | |
constexpr auto _to_array(T (&arr)[N], _indices<I...>) | |
-> std::array<remove_cv_t<T>, N> | |
{ | |
return {{ arr[I]... }}; | |
} | |
template <typename T, size_t N, size_t... I> | |
constexpr auto _to_array(T (&&arr)[N], _indices<I...>) | |
-> std::array<remove_cv_t<T>, N> | |
{ | |
return {{ std::move(arr[I])... }}; | |
} | |
template <typename T, size_t N> | |
constexpr auto to_array(T (&arr)[N]) | |
-> std::array<remove_cv_t<T>, N> | |
{ | |
return _to_array(arr, _build_indices<N>()); | |
} | |
template <typename T, size_t N> | |
constexpr auto to_array(T (&&arr)[N]) | |
-> std::array<remove_cv_t<T>, N> | |
{ | |
return _to_array(std::move(arr), _build_indices<N>()); | |
} | |
#include <iostream> | |
#include <memory> | |
int main() | |
{ | |
auto ch = 'a'; | |
auto const d = 65l; | |
auto a1 = make_array(ch, d, 0); | |
static_assert(std::is_same<decltype(a1)::value_type, long>(), ""); | |
std::cout << a1[0] << std::endl; | |
constexpr auto a2 = to_array("abc"); | |
static_assert(std::is_same<decltype(a2)::value_type, char>(), ""); | |
std::cout << a2.data() << std::endl; | |
auto a3 = make_array("aa", "bb"); | |
static_assert(std::is_same<decltype(a3)::value_type, char const*>(), | |
"fix your library"); | |
std::cout << a3[0] << std::endl; | |
auto a4 = make_array<long>(2, 3U); | |
static_assert(std::is_same<decltype(a4)::value_type, long>(), ""); | |
std::cout << a4[0] << std::endl; | |
auto a5 = make_array<short>(); | |
static_assert(std::is_same<decltype(a5)::value_type, short>(), ""); | |
std::cout << a5.size() << std::endl; | |
int a, b; | |
auto a6 = make_array<std::reference_wrapper<int>>(std::ref(a), b); | |
std::cout << a6.size() << std::endl; | |
auto a7 = to_array<std::pair<int, float>>( | |
{ { 3, .0f }, { 4, .1f }, { 4, .1e23f } }); | |
static_assert( | |
std::is_same<decltype(a7)::value_type, std::pair<int, float>>(), | |
""); | |
auto a8 = to_array({ std::make_unique<int>(3) }); | |
std::cout << *a8[0] << std::endl; | |
auto a9 = to_array({ 0, 2, 1, 3 }); | |
std::cout << a9.size() << std::endl; | |
// ** do not compile ** | |
//auto a7 = make_array(std::cref("")); | |
// ** hard error ** | |
//char s[2][6] = { "nice", "thing" }; | |
//auto a8 = to_array(s); | |
} |
I love this, but am wondering if it can be improved. Would the syntax in #1 and #2 be possible?
// #1 How I would expect std::array to work
std::array<VkDescriptorPoolSize> poolSizes = (
VkDescriptorPoolSize{ VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER, descriptorCount }
, VkDescriptorPoolSize{ VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER, 1 }
);
// #2 How I would expect make_array to work
auto poolSizes = make_array<VkDescriptorPoolSize>(
{ VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER, descriptorCount }
, { VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER, 1 }
);
// #3 How make_array actually works
auto poolSizes = make_array(
VkDescriptorPoolSize{ VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER, descriptorCount }
, VkDescriptorPoolSize{ VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER, 1 }
);
// #4 How C/C++ works without std::array
VkDescriptorPoolSize poolSizes[] = {
{VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER, descriptorCount}
, {VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER, 1}
};
edit: I realized #2 is -supposed- to work, but it does not for me (VS2017)
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I can't get this to work with VS 2015, curious if anyone else has had luck?
It works fine with GCC 6.