2022-09-14 19:11:38 +03:00
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/**
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* Implementation of compile-time sort for symbol table entries.
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*/
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#pragma once
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2023-03-14 17:29:28 +03:00
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#ifdef __cplusplus
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2022-09-14 19:11:38 +03:00
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#include <iterator>
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#include <array>
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namespace cstd {
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template <typename RAIt>
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constexpr RAIt next(RAIt it, typename std::iterator_traits<RAIt>::difference_type n = 1) {
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return it + n;
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}
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template <typename RAIt>
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constexpr auto distance(RAIt first, RAIt last) {
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return last - first;
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}
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template <class ForwardIt1, class ForwardIt2>
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constexpr void iter_swap(ForwardIt1 a, ForwardIt2 b) {
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auto temp = std::move(*a);
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*a = std::move(*b);
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*b = std::move(temp);
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}
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template <class InputIt, class UnaryPredicate>
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constexpr InputIt find_if_not(InputIt first, InputIt last, UnaryPredicate q) {
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for(; first != last; ++first) {
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if(!q(*first)) {
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return first;
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}
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}
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return last;
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}
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template <class ForwardIt, class UnaryPredicate>
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constexpr ForwardIt partition(ForwardIt first, ForwardIt last, UnaryPredicate p) {
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first = cstd::find_if_not(first, last, p);
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if(first == last) return first;
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for(ForwardIt i = cstd::next(first); i != last; ++i) {
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if(p(*i)) {
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cstd::iter_swap(i, first);
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++first;
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}
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}
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return first;
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}
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}
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template <class RAIt, class Compare = std::less<> >
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constexpr void quick_sort(RAIt first, RAIt last, Compare cmp = Compare{}) {
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auto const N = cstd::distance(first, last);
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if(N <= 1) return;
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auto const pivot = *cstd::next(first, N / 2);
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auto const middle1 =
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cstd::partition(first, last, [=](auto const& elem) { return cmp(elem, pivot); });
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auto const middle2 =
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cstd::partition(middle1, last, [=](auto const& elem) { return !cmp(pivot, elem); });
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quick_sort(first, middle1, cmp); // assert(std::is_sorted(first, middle1, cmp));
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quick_sort(middle2, last, cmp); // assert(std::is_sorted(middle2, last, cmp));
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}
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template <typename Range>
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constexpr auto sort(Range&& range) {
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quick_sort(std::begin(range), std::end(range));
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return range;
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}
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template <typename V, typename... T>
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constexpr auto array_of(T&&... t) -> std::array<V, sizeof...(T)> {
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return {{std::forward<T>(t)...}};
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}
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template <typename T, typename... N>
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constexpr auto my_make_array(N&&... args) -> std::array<T, sizeof...(args)> {
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return {std::forward<N>(args)...};
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}
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namespace traits {
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template <typename T, typename... Ts>
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struct array_type {
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using type = T;
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};
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template <typename T, typename... Ts>
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static constexpr bool are_same_type() {
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return std::conjunction_v<std::is_same<T, Ts>...>;
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}
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}
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template <typename... T>
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constexpr auto create_array(const T&&... values) {
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using array_type = typename traits::array_type<T...>::type;
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static_assert(sizeof...(T) > 0, "an array must have at least one element");
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static_assert(traits::are_same_type<T...>(), "all elements must have same type");
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return std::array<array_type, sizeof...(T)>{values...};
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}
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template <typename T, typename... Ts>
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constexpr auto create_array_t(const Ts&&... values) {
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using array_type = T;
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static_assert(sizeof...(Ts) > 0, "an array must have at least one element");
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static_assert(traits::are_same_type<Ts...>(), "all elements must have same type");
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return std::array<array_type, sizeof...(Ts)>{static_cast<T>(values)...};
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}
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2023-03-14 17:29:28 +03:00
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#endif
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