#pragma once #include #include #include #include #include #include #include template concept SequentialCollection = requires(T c) { { c.size() } -> std::integral; { c.data() } -> std::same_as; }; template concept IterableCollection = std::is_same_v().begin()), decltype(std::declval().end())>; template [[nodiscard]] constexpr std::array operator+(const std::array & a, const std::array & b) { std::array r; auto out = r.begin(); out = std::copy(a.begin(), a.end(), out); std::copy(b.begin(), b.end(), out); return r; } template [[nodiscard]] constexpr std::array, first * second> operator*(const std::array & a, const std::array & b) { std::array, first * second> r; auto out = r.begin(); for (const auto & ae : a) { for (const auto & be : b) { *out++ = {ae, be}; } } return r; } template [[nodiscard]] constexpr auto operator*(const std::array & in, auto && f) { std::array out; for (auto outitr = out.begin(); const auto & v : in) { *outitr++ = f(v); } return out; } constexpr auto & operator*=(IterableCollection auto & in, auto && f) { for (auto & v : in) { f(v); } return in; } template typename C, typename... T> requires IterableCollection> [[nodiscard]] constexpr auto operator*(const C & in, auto && f) { C out; if constexpr (requires { out.reserve(in.size()); }) { out.reserve(in.size()); } std::transform(in.begin(), in.end(), std::inserter(out, out.end()), f); return out; } template [[nodiscard]] constexpr auto operator*(const std::span in, auto && f) { std::array())), N> out; std::transform(in.begin(), in.end(), out.begin(), f); return out; } template [[nodiscard]] constexpr auto operator*(const std::span in, auto && f) { std::vector()))> out; out.reserve(in.size()); std::transform(in.begin(), in.end(), std::inserter(out, out.end()), f); return out; } template constexpr auto & operator+=(std::vector & in, std::vector && src) { in.reserve(in.size() + src.size()); std::move(src.begin(), src.end(), std::back_inserter(in)); return in; } template [[nodiscard]] constexpr auto operator+(const std::vector & in, Vn && vn) { auto out(in); out.emplace_back(std::forward(vn)); return out; } template typename Direction = std::plus, typename T = unsigned int> [[nodiscard]] static auto vectorOfN(std::integral auto N, T start = {}, T step = 1) { std::vector v; v.resize(N); std::generate_n(v.begin(), N, [&start, step, adj = Direction {}]() { return std::exchange(start, adj(start, step)); }); return v; } template typename Rtn = std::vector, typename In> [[nodiscard]] auto materializeRange(const In begin, const In end) { return Rtn(begin, end); } template typename Rtn = std::vector, IterableCollection In> [[nodiscard]] auto materializeRange(const In & in) { return materializeRange(in.begin(), in.end()); } template typename Rtn = std::vector, typename In> [[nodiscard]] auto materializeRange(const std::pair & in) { return materializeRange(in.first, in.second); } template struct pair_range { constexpr auto & begin() const noexcept { return pair.first; } constexpr auto & end() const noexcept { return pair.second; } const std::pair & pair; }; template pair_range(std::pair) -> pair_range; template struct stripiter { [[nodiscard]] constexpr bool operator!=(const stripiter & other) const { return current != other.current; } [[nodiscard]] constexpr bool operator==(const stripiter & other) const { return current == other.current; } constexpr stripiter & operator++() { ++current; off = 1 - off; return *this; } constexpr stripiter & operator--() { --current; off = 1 - off; return *this; } constexpr auto operator-(const stripiter & other) const { return current - other.current; } constexpr auto operator*() const { return std::tie(*(current - (2 - off)), *(current - off - 1), *current); } iter current; uint8_t off {}; }; template struct std::iterator_traits> : std::iterator_traits { }; constexpr auto strip_begin(IterableCollection auto & cont) { return stripiter {cont.begin() + 2}; } constexpr auto strip_end(IterableCollection auto & cont) { return stripiter {cont.end()}; }