C ++ constexpr:在编译时计算std数组

问题描述 投票:7回答:2

我想将bool的“数组”转换为整数序列。所以我需要在编译时计算一个std::array

这是我的代码

#include <array>

template<typename InputIt, typename T >
inline constexpr typename std::iterator_traits<InputIt>::difference_type
count( InputIt first, InputIt last, const T &value ) {
    typename std::iterator_traits<InputIt>::difference_type ret = 0;
        for (; first != last; ++first) {
            if (*first == value) {
                ret++;
            }
        }
        return ret;
}

template<bool ..._values>
struct keep_value {
    static constexpr std::size_t numberOfValues = sizeof...(_values);
    static constexpr bool values[] = {_values...};
    static constexpr std::size_t numberToKeep = count(values, values + numberOfValues, true);

    static constexpr std::array<std::size_t, numberToKeep> computeIndices() {
        std::array<std::size_t, numberToKeep> array{};
        auto it = array.begin();
        for(std::size_t i{0}; i < numberOfValues; ++i)
            if(values[i] == true)
                *it++ = i;

        return array;
    }

    static constexpr std::array<std::size_t, numberToKeep> indices = computeIndices();

    template<typename Indices = std::make_index_sequence<numberToKeep>>
    struct as_index_sequence{};

    template<std::size_t ...Is>
    struct as_index_sequence<std::index_sequence<Is...>> : std::index_sequence<indices[Is]...>{};
};

int main() {
    keep_value<false, true, true>::template as_index_sequence<>{}; // Should return the sequence 1 2
}

调用computeIndices函数的行出错了。这段代码c ++ 14是否正确?是否可以这样做?我正在使用MSVC,我得到这个错误:表达式没有评估为常量

c++ c++14 variadic-templates template-meta-programming constexpr
2个回答
7
投票

此代码看起来正确,并在编译为C ++ 17时有效。它使用std::array::begin,它只在C ++ 17中制作了constexpr

using clang指出时,可以实现更好的编译错误:

<source>:23:25: note: non-constexpr function 'begin' cannot be used in a constant expression
    auto it = array.begin();

2
投票

是否可以这样做?

关于正确性回答了JVApen(+1)。

一种可能的替代方法是完全避免使用std::array,并使用模板特化以递归方式构造索引序列

以下是完整的可编译示例

#include <utility>
#include <type_traits>

template <typename, std::size_t, bool...>
struct bar;

// true case
template <std::size_t ... Is, std::size_t I, bool ... Bs>
struct bar<std::index_sequence<Is...>, I, true, Bs...>
   : public bar<std::index_sequence<Is..., I>, I+1U, Bs...>
 { };

// false case
template <std::size_t ... Is, std::size_t I, bool ... Bs>
struct bar<std::index_sequence<Is...>, I, false, Bs...>
   : public bar<std::index_sequence<Is...>, I+1U, Bs...>
 { };

// end case
template <typename T, std::size_t I>
struct bar<T, I>
 { using type = T; };

template <bool ... Bs>
struct foo : public bar<std::index_sequence<>, 0U, Bs...>
 { };

int main()
 {
   static_assert( std::is_same<typename foo<false, true, true>::type,
                               std::index_sequence<1U, 2U>>{}, "!" );
 }

如果你不喜欢递归解决方案,我建议(只是为了好玩)另一种基于std::tuple_cat的解决方案

#include <tuple>
#include <utility>
#include <type_traits>

template <std::size_t, bool>
struct baz
 { using type = std::tuple<>; };

template <std::size_t I>
struct baz<I, true>
 { using type = std::tuple<std::integral_constant<std::size_t, I>>; };

template <std::size_t I, bool B>
using baz_t = typename baz<I, B>::type;

template <typename, bool...>
struct bar;

template <std::size_t ... Is, bool ... Bs>
struct bar<std::index_sequence<Is...>, Bs...>
 {
   template <std::size_t ... Js>
   constexpr static std::index_sequence<Js...>
      func (std::tuple<std::integral_constant<std::size_t, Js>...> const &);

   using type = decltype(func(std::tuple_cat(baz_t<Is, Bs>{}...)));
 };


template <bool ... Bs>
struct foo : public bar<std::make_index_sequence<sizeof...(Bs)>, Bs...>
 { };

int main()
 {
   static_assert( std::is_same<typename foo<false, true, true>::type,
                               std::index_sequence<1U, 2U>>{}, "!" );
 }
© www.soinside.com 2019 - 2024. All rights reserved.