結果
問題 | No.119 旅行のツアーの問題 |
ユーザー | shiomusubi496 |
提出日時 | 2024-04-01 16:19:52 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
AC
|
実行時間 | 2 ms / 5,000 ms |
コード長 | 46,006 bytes |
コンパイル時間 | 3,113 ms |
コンパイル使用メモリ | 249,288 KB |
実行使用メモリ | 6,820 KB |
最終ジャッジ日時 | 2024-09-30 21:53:32 |
合計ジャッジ時間 | 3,831 ms |
ジャッジサーバーID (参考情報) |
judge1 / judge2 |
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テストケース
テストケース表示入力 | 結果 | 実行時間 実行使用メモリ |
---|---|---|
testcase_00 | AC | 1 ms
6,816 KB |
testcase_01 | AC | 2 ms
6,816 KB |
testcase_02 | AC | 1 ms
6,816 KB |
testcase_03 | AC | 2 ms
6,816 KB |
testcase_04 | AC | 2 ms
6,820 KB |
testcase_05 | AC | 1 ms
6,820 KB |
testcase_06 | AC | 2 ms
6,816 KB |
testcase_07 | AC | 2 ms
6,816 KB |
testcase_08 | AC | 2 ms
6,820 KB |
testcase_09 | AC | 1 ms
6,820 KB |
testcase_10 | AC | 1 ms
6,816 KB |
testcase_11 | AC | 1 ms
6,820 KB |
testcase_12 | AC | 1 ms
6,816 KB |
testcase_13 | AC | 1 ms
6,820 KB |
testcase_14 | AC | 2 ms
6,820 KB |
testcase_15 | AC | 1 ms
6,820 KB |
testcase_16 | AC | 2 ms
6,820 KB |
testcase_17 | AC | 2 ms
6,816 KB |
testcase_18 | AC | 1 ms
6,816 KB |
testcase_19 | AC | 2 ms
6,816 KB |
testcase_20 | AC | 2 ms
6,820 KB |
testcase_21 | AC | 2 ms
6,820 KB |
testcase_22 | AC | 2 ms
6,816 KB |
ソースコード
#line 1 "library/test/yuki/119-KPSP.test.cpp" #define PROBLEM "https://yukicoder.me/problems/no/119" #line 2 "library/other/template.hpp" #include <bits/stdc++.h> #line 2 "library/template/macros.hpp" #line 4 "library/template/macros.hpp" #ifndef __COUNTER__ #define __COUNTER__ __LINE__ #endif #define OVERLOAD5(a, b, c, d, e, ...) e #define REP1_0(b, c) REP1_1(b, c) #define REP1_1(b, c) \ for (ll REP_COUNTER_##c = 0; REP_COUNTER_##c < (ll)(b); ++REP_COUNTER_##c) #define REP1(b) REP1_0(b, __COUNTER__) #define REP2(i, b) for (ll i = 0; i < (ll)(b); ++i) #define REP3(i, a, b) for (ll i = (ll)(a); i < (ll)(b); ++i) #define REP4(i, a, b, c) for (ll i = (ll)(a); i < (ll)(b); i += (ll)(c)) #define rep(...) OVERLOAD5(__VA_ARGS__, REP4, REP3, REP2, REP1)(__VA_ARGS__) #define RREP2(i, a) for (ll i = (ll)(a)-1; i >= 0; --i) #define RREP3(i, a, b) for (ll i = (ll)(a)-1; i >= (ll)(b); --i) #define RREP4(i, a, b, c) for (ll i = (ll)(a)-1; i >= (ll)(b); i -= (ll)(c)) #define rrep(...) OVERLOAD5(__VA_ARGS__, RREP4, RREP3, RREP2)(__VA_ARGS__) #define REPS2(i, b) for (ll i = 1; i <= (ll)(b); ++i) #define REPS3(i, a, b) for (ll i = (ll)(a) + 1; i <= (ll)(b); ++i) #define REPS4(i, a, b, c) for (ll i = (ll)(a) + 1; i <= (ll)(b); i += (ll)(c)) #define reps(...) OVERLOAD5(__VA_ARGS__, REPS4, REPS3, REPS2)(__VA_ARGS__) #define RREPS2(i, a) for (ll i = (ll)(a); i > 0; --i) #define RREPS3(i, a, b) for (ll i = (ll)(a); i > (ll)(b); --i) #define RREPS4(i, a, b, c) for (ll i = (ll)(a); i > (ll)(b); i -= (ll)(c)) #define rreps(...) OVERLOAD5(__VA_ARGS__, RREPS4, RREPS3, RREPS2)(__VA_ARGS__) #define each_for(...) for (auto&& __VA_ARGS__) #define each_const(...) for (const auto& __VA_ARGS__) #define all(v) std::begin(v), std::end(v) #if __cplusplus >= 201402L #define rall(v) std::rbegin(v), std::rend(v) #else #define rall(v) v.rbegin(), v.rend() #endif #if __cpp_constexpr >= 201304L #define CONSTEXPR constexpr #else #define CONSTEXPR #endif #if __cpp_if_constexpr >= 201606L #define IF_CONSTEXPR constexpr #else #define IF_CONSTEXPR #endif #define IO_BUFFER_SIZE 2048 #line 2 "library/template/alias.hpp" #line 4 "library/template/alias.hpp" using ll = long long; using uint = unsigned int; using ull = unsigned long long; using i128 = __int128_t; using u128 = __uint128_t; using ld = long double; using PLL = std::pair<ll, ll>; template<class T> using prique = std::priority_queue<T, std::vector<T>, std::greater<T>>; template<class T> struct infinity { static constexpr T value = std::numeric_limits<T>::max() / 2; static constexpr T mvalue = std::numeric_limits<T>::lowest() / 2; static constexpr T max = std::numeric_limits<T>::max(); static constexpr T min = std::numeric_limits<T>::lowest(); }; #if __cplusplus <= 201402L template<class T> constexpr T infinity<T>::value; template<class T> constexpr T infinity<T>::mvalue; template<class T> constexpr T infinity<T>::max; template<class T> constexpr T infinity<T>::min; #endif #if __cpp_variable_templates >= 201304L template<class T> constexpr T INF = infinity<T>::value; #endif constexpr ll inf = infinity<ll>::value; constexpr ld EPS = 1e-8; constexpr ld PI = 3.1415926535897932384626; #line 2 "library/template/type_traits.hpp" #line 5 "library/template/type_traits.hpp" template<class T, class... Args> struct function_traits_impl { using result_type = T; template<std::size_t idx> using argument_type = typename std::tuple_element<idx, std::tuple<Args...>>::type; using argument_tuple = std::tuple<Args...>; static constexpr std::size_t arg_size() { return sizeof...(Args); } }; template<class> struct function_traits_helper; template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...)> { using type = function_traits_impl<Res, Args...>; }; template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...)&> { using type = function_traits_impl<Res, Args...>; }; template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...) const> { using type = function_traits_impl<Res, Args...>; }; template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...) const&> { using type = function_traits_impl<Res, Args...>; }; #if __cpp_noexcept_function_type >= 201510L template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...) noexcept> { using type = function_traits_impl<Res, Args...>; }; template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...)& noexcept> { using type = function_traits_impl<Res, Args...>; }; template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...) const noexcept> { using type = function_traits_impl<Res, Args...>; }; template<class Res, class Tp, class... Args> struct function_traits_helper<Res (Tp::*)(Args...) const& noexcept> { using type = function_traits_impl<Res, Args...>; }; #endif template<class F> using function_traits = typename function_traits_helper< decltype(&std::remove_reference<F>::type::operator())>::type; template<class F> using function_result_type = typename function_traits<F>::result_type; template<class F, std::size_t idx> using function_argument_type = typename function_traits<F>::template argument_type<idx>; template<class F> using function_argument_tuple = typename function_traits<F>::argument_tuple; template<class T> using is_signed_int = std::integral_constant<bool, (std::is_integral<T>::value && std::is_signed<T>::value) || std::is_same<T, i128>::value>; template<class T> using is_unsigned_int = std::integral_constant<bool, (std::is_integral<T>::value && std::is_unsigned<T>::value) || std::is_same<T, u128>::value>; template<class T> using is_int = std::integral_constant<bool, is_signed_int<T>::value || is_unsigned_int<T>::value>; template<class T> using make_signed_int = typename std::conditional< std::is_same<T, i128>::value || std::is_same<T, u128>::value, std::common_type<i128>, std::make_signed<T>>::type; template<class T> using make_unsigned_int = typename std::conditional< std::is_same<T, i128>::value || std::is_same<T, u128>::value, std::common_type<u128>, std::make_unsigned<T>>::type; template<class T, class = void> struct is_range : std::false_type {}; template<class T> struct is_range< T, decltype(all(std::declval<typename std::add_lvalue_reference<T>::type>()), (void)0)> : std::true_type {}; template<class T, bool = is_range<T>::value> struct range_rank : std::integral_constant<std::size_t, 0> {}; template<class T> struct range_rank<T, true> : std::integral_constant<std::size_t, range_rank<typename T::value_type>::value + 1> {}; template<std::size_t size> struct int_least { static_assert(size <= 128, "size must be less than or equal to 128"); using type = typename std::conditional< size <= 8, std::int_least8_t, typename std::conditional< size <= 16, std::int_least16_t, typename std::conditional< size <= 32, std::int_least32_t, typename std::conditional<size <= 64, std::int_least64_t, i128>::type>::type>::type>::type; }; template<std::size_t size> using int_least_t = typename int_least<size>::type; template<std::size_t size> struct uint_least { static_assert(size <= 128, "size must be less than or equal to 128"); using type = typename std::conditional< size <= 8, std::uint_least8_t, typename std::conditional< size <= 16, std::uint_least16_t, typename std::conditional< size <= 32, std::uint_least32_t, typename std::conditional<size <= 64, std::uint_least64_t, u128>::type>::type>::type>::type; }; template<std::size_t size> using uint_least_t = typename uint_least<size>::type; template<class T> using double_size_int = int_least<std::numeric_limits<T>::digits * 2 + 1>; template<class T> using double_size_int_t = typename double_size_int<T>::type; template<class T> using double_size_uint = uint_least<std::numeric_limits<T>::digits * 2>; template<class T> using double_size_uint_t = typename double_size_uint<T>::type; template<class T> using double_size = typename std::conditional<is_signed_int<T>::value, double_size_int<T>, double_size_uint<T>>::type; template<class T> using double_size_t = typename double_size<T>::type; #line 2 "library/template/in.hpp" #line 4 "library/template/in.hpp" #include <unistd.h> #line 8 "library/template/in.hpp" template<std::size_t buf_size = IO_BUFFER_SIZE> class Reader { private: int fd, idx, sz; bool state; std::array<char, buf_size> buffer; inline void read_buf() { sz = read(fd, buffer.begin(), buf_size); idx = 0; if (sz < 0) throw std::runtime_error("input failed"); } public: static constexpr int get_buf_size() { return buf_size; } Reader() noexcept : fd(0), idx(0), sz(0), state(true) {} Reader(int fd) noexcept : fd(fd), idx(0), sz(0), state(true) {} Reader(FILE* fp) noexcept : fd(fileno(fp)), idx(0), sz(0), state(true) {} class iterator { private: Reader* reader; public: using difference_type = void; using value_type = void; using pointer = void; using reference = void; using iterator_category = std::input_iterator_tag; iterator() : reader(nullptr) {} explicit iterator(Reader& reader) : reader(&reader) {} explicit iterator(Reader* reader) : reader(reader) {} iterator& operator++() { if (reader->idx == reader->sz) reader->read_buf(); ++reader->idx; return *this; } iterator operator++(int) { iterator res = *this; ++(*this); return res; } char operator*() const { if (reader->idx == reader->sz) reader->read_buf(); if (reader->idx < reader->sz) return reader->buffer[reader->idx]; reader->state = false; return '\0'; } bool rdstate() const { return reader->state; } void setstate(bool state) { reader->state = state; } }; iterator begin() noexcept { return iterator(this); } }; Reader<> reader(0); template<class Iterator, std::size_t decimal_precision = 16> class Scanner { public: using iterator_type = Iterator; private: template<class, class = void> struct has_scan : std::false_type {}; template<class T> struct has_scan< T, decltype(std::declval<T>().scan(std::declval<Scanner&>()), (void)0)> : std::true_type {}; Iterator itr; public: Scanner() = default; Scanner(const Iterator& itr) : itr(itr) {} char scan_char() { char c = *itr; ++itr; return c; } Scanner ignore(int n = 1) { rep (n) ++itr; return *this; } inline void discard_space() { while (('\t' <= *itr && *itr <= '\r') || *itr == ' ') ++itr; } void scan(char& a) { discard_space(); a = *itr; ++itr; } void scan(bool& a) { discard_space(); a = *itr != '0'; ++itr; } void scan(std::string& a) { discard_space(); a.clear(); while ((*itr < '\t' || '\r' < *itr) && *itr != ' ' && *itr != '\0') { a += *itr; ++itr; } } template<std::size_t len> void scan(std::bitset<len>& a) { discard_space(); rrep (i, len) { a[i] = *itr != '0'; ++itr; } } template<class T, typename std::enable_if<is_signed_int<T>::value && !has_scan<T>::value>::type* = nullptr> void scan(T& a) { discard_space(); if (*itr == '-') { ++itr; a = 0; while ('0' <= *itr && *itr <= '9') { a = a * 10 - (*itr - '0'); ++itr; } } else { a = 0; while ('0' <= *itr && *itr <= '9') { a = a * 10 + (*itr - '0'); ++itr; } } } template<class T, typename std::enable_if<is_unsigned_int<T>::value && !has_scan<T>::value>::type* = nullptr> void scan(T& a) { discard_space(); a = 0; while ('0' <= *itr && *itr <= '9') { a = a * 10 + *itr - '0'; ++itr; } } template<class T, typename std::enable_if<std::is_floating_point<T>::value && !has_scan<T>::value>::type* = nullptr> void scan(T& a) { discard_space(); bool sgn = false; if (*itr == '-') { sgn = true; ++itr; } a = 0; while ('0' <= *itr && *itr <= '9') { a = a * 10 + *itr - '0'; ++itr; } if (*itr == '.') { ++itr; T n = 0, d = 1; for (int i = 0; '0' <= *itr && *itr <= '9' && i < (int)decimal_precision; ++i) { n = n * 10 + *itr - '0'; d *= 10; ++itr; } while ('0' <= *itr && *itr <= '9') ++itr; a += n / d; } if (sgn) a = -a; } private: template<std::size_t i, class... Args> void scan(std::tuple<Args...>& a) { if IF_CONSTEXPR (i < sizeof...(Args)) { scan(std::get<i>(a)); scan<i + 1, Args...>(a); } } public: template<class... Args> void scan(std::tuple<Args...>& a) { scan<0, Args...>(a); } template<class T, class U> void scan(std::pair<T, U>& a) { scan(a.first); scan(a.second); } template<class T, typename std::enable_if<is_range<T>::value && !has_scan<T>::value>::type* = nullptr> void scan(T& a) { each_for (i : a) scan(i); } template<class T, typename std::enable_if<has_scan<T>::value>::type* = nullptr> void scan(T& a) { a.scan(*this); } void operator()() {} template<class Head, class... Args> void operator()(Head& head, Args&... args) { scan(head); operator()(args...); } template<class T> Scanner& operator>>(T& a) { scan(a); return *this; } explicit operator bool() const { return itr.rdstate(); } friend Scanner& getline(Scanner& scan, std::string& a) { a.erase(); char c; if ((c = scan.scan_char()) == '\n' || c == '\0') return scan; a += c; while ((c = scan.scan_char()) != '\n' && c != '\0') a += c; scan.itr.setstate(true); return scan; } }; Scanner<Reader<>::iterator> scan(reader.begin()); #line 2 "library/template/out.hpp" #line 8 "library/template/out.hpp" template<std::size_t buf_size = IO_BUFFER_SIZE> class Writer { private: int fd, idx; std::array<char, buf_size> buffer; inline void write_buf() { int num = write(fd, buffer.begin(), idx); idx = 0; if (num < 0) throw std::runtime_error("output failed"); } public: Writer() noexcept : fd(1), idx(0) {} Writer(int fd) noexcept : fd(fd), idx(0) {} Writer(FILE* fp) noexcept : fd(fileno(fp)), idx(0) {} ~Writer() { write_buf(); } class iterator { private: Writer* writer; public: using difference_type = void; using value_type = void; using pointer = void; using reference = void; using iterator_category = std::output_iterator_tag; iterator() noexcept : writer(nullptr) {} explicit iterator(Writer& writer) noexcept : writer(&writer) {} explicit iterator(Writer* writer) noexcept : writer(writer) {} iterator& operator++() { ++writer->idx; if (writer->idx == buf_size) writer->write_buf(); return *this; } iterator operator++(int) { iterator res = *this; ++(*this); return res; } char& operator*() const { return writer->buffer[writer->idx]; } void flush() const { writer->write_buf(); } }; iterator begin() noexcept { return iterator(this); } }; Writer<> writer(1), ewriter(2); template<class Iterator, bool debug = false> class Printer { public: using iterator_type = Iterator; private: template<class, bool = debug, class = void> struct has_print : std::false_type {}; template<class T> struct has_print<T, false, decltype(std::declval<T>().print(std::declval<Printer&>()), (void)0)> : std::true_type {}; template<class T> struct has_print<T, true, decltype(std::declval<T>().debug(std::declval<Printer&>()), (void)0)> : std::true_type {}; Iterator itr; std::size_t decimal_precision; public: void print_char(char c) { *itr = c; ++itr; } void flush() { itr.flush(); } Printer() noexcept = default; explicit Printer(const Iterator& itr) noexcept : itr(itr), decimal_precision(16) {} void set_decimal_precision(std::size_t decimal_precision) { this->decimal_precision = decimal_precision; } void print(char c) { if IF_CONSTEXPR (debug) print_char('\''); print_char(c); if IF_CONSTEXPR (debug) print_char('\''); } void print(bool b) { print_char((char)(b + '0')); } void print(const char* a) { if IF_CONSTEXPR (debug) print_char('"'); for (; *a != '\0'; ++a) print_char(*a); if IF_CONSTEXPR (debug) print_char('"'); } template<std::size_t len> void print(const char (&a)[len]) { if IF_CONSTEXPR (debug) print_char('"'); for (auto i : a) print_char(i); if IF_CONSTEXPR (debug) print_char('"'); } void print(const std::string& a) { if IF_CONSTEXPR (debug) print_char('"'); for (auto i : a) print_char(i); if IF_CONSTEXPR (debug) print_char('"'); } template<std::size_t len> void print(const std::bitset<len>& a) { rrep (i, len) print_char((char)(a[i] + '0')); } template<class T, typename std::enable_if<is_int<T>::value && !has_print<T>::value>::type* = nullptr> void print(T a) { if (!a) { print_char('0'); return; } if IF_CONSTEXPR (is_signed_int<T>::value) { if (a < 0) { print_char('-'); using U = typename make_unsigned_int<T>::type; print(static_cast<U>(-static_cast<U>(a))); return; } } std::string s; while (a) { s += (char)(a % 10 + '0'); a /= 10; } for (auto i = s.rbegin(); i != s.rend(); ++i) print_char(*i); } template<class T, typename std::enable_if<std::is_floating_point<T>::value && !has_print<T>::value>::type* = nullptr> void print(T a) { if (a == std::numeric_limits<T>::infinity()) { print("inf"); return; } if (a == -std::numeric_limits<T>::infinity()) { print("-inf"); return; } if (std::isnan(a)) { print("nan"); return; } if (a < 0) { print_char('-'); a = -a; } T b = a; if (b < 1) { print_char('0'); } else { std::string s; while (b >= 1) { s += (char)('0' + (int)std::fmod(b, 10.0)); b /= 10; } for (auto i = s.rbegin(); i != s.rend(); ++i) print_char(*i); } print_char('.'); rep (decimal_precision) { a *= 10; print_char((char)('0' + (int)std::fmod(a, 10.0))); } } private: template<std::size_t i, class... Args> void print(const std::tuple<Args...>& a) { if IF_CONSTEXPR (i < sizeof...(Args)) { if IF_CONSTEXPR (debug) print_char(','); print_char(' '); print(std::get<i>(a)); print<i + 1, Args...>(a); } } public: template<class... Args> void print(const std::tuple<Args...>& a) { if IF_CONSTEXPR (debug) print_char('('); if IF_CONSTEXPR (sizeof...(Args) != 0) print(std::get<0>(a)); print<1, Args...>(a); if IF_CONSTEXPR (debug) print_char(')'); } template<class T, class U> void print(const std::pair<T, U>& a) { if IF_CONSTEXPR (debug) print_char('('); print(a.first); if IF_CONSTEXPR (debug) print_char(','); print_char(' '); print(a.second); if IF_CONSTEXPR (debug) print_char(')'); } template<class T, typename std::enable_if<is_range<T>::value && !has_print<T>::value>::type* = nullptr> void print(const T& a) { if IF_CONSTEXPR (debug) print_char('{'); for (auto i = std::begin(a); i != std::end(a); ++i) { if (i != std::begin(a)) { if IF_CONSTEXPR (debug) print_char(','); print_char(' '); } print(*i); } if IF_CONSTEXPR (debug) print_char('}'); } template<class T, typename std::enable_if<has_print<T>::value && !debug>::type* = nullptr> void print(const T& a) { a.print(*this); } template<class T, typename std::enable_if<has_print<T>::value && debug>::type* = nullptr> void print(const T& a) { a.debug(*this); } void operator()() {} template<class Head, class... Args> void operator()(const Head& head, const Args&... args) { print(head); operator()(args...); } template<class T> Printer& operator<<(const T& a) { print(a); return *this; } Printer& operator<<(Printer& (*pf)(Printer&)) { return pf(*this); } }; template<class Iterator, bool debug> Printer<Iterator, debug>& endl(Printer<Iterator, debug>& pr) { pr.print_char('\n'); pr.flush(); return pr; } template<class Iterator, bool debug> Printer<Iterator, debug>& flush(Printer<Iterator, debug>& pr) { pr.flush(); return pr; } struct SetPrec { int n; template<class Pr> void print(Pr& pr) const { pr.set_decimal_precision(n); } template<class Pr> void debug(Pr& pr) const { pr.set_decimal_precision(n); } }; SetPrec setprec(int n) { return SetPrec{n}; }; Printer<Writer<>::iterator> print(writer.begin()), eprint(ewriter.begin()); void prints() { print.print_char('\n'); } template<class T> auto prints(const T& v) -> decltype(print << v, (void)0) { print << v; print.print_char('\n'); } template<class Head, class... Tail> auto prints(const Head& head, const Tail&... tail) -> decltype(print << head, (void)0) { print << head; print.print_char(' '); prints(tail...); } #ifdef SHIO_LOCAL Printer<Writer<>::iterator, true> debug(writer.begin()), edebug(ewriter.begin()); #else char debug_iterator_character; class DebugIterator { public: DebugIterator() noexcept = default; DebugIterator& operator++() { return *this; } DebugIterator& operator++(int) { return *this; } char& operator*() const { return debug_iterator_character; } void flush() const {} }; Printer<DebugIterator> debug, edebug; #endif void debugs() { debug.print_char('\n'); } template<class T> auto debugs(const T& v) -> decltype(debug << v, (void)0) { debug << v; debug.print_char('\n'); } template<class Head, class... Tail> auto debugs(const Head& head, const Tail&... tail) -> decltype(debug << head, (void)0) { debug << head; debug.print_char(' '); debugs(tail...); } #line 2 "library/template/bitop.hpp" #line 6 "library/template/bitop.hpp" namespace bitop { #define KTH_BIT(b, k) (((b) >> (k)) & 1) #define POW2(k) (1ull << (k)) inline ull next_combination(int n, ull x) { if (n == 0) return 1; ull a = x & -x; ull b = x + a; return (x & ~b) / a >> 1 | b; } #define rep_comb(i, n, k) \ for (ull i = (1ull << (k)) - 1; i < (1ull << (n)); \ i = bitop::next_combination((n), i)) inline CONSTEXPR int msb(ull x) { int res = x ? 0 : -1; if (x & 0xFFFFFFFF00000000) x &= 0xFFFFFFFF00000000, res += 32; if (x & 0xFFFF0000FFFF0000) x &= 0xFFFF0000FFFF0000, res += 16; if (x & 0xFF00FF00FF00FF00) x &= 0xFF00FF00FF00FF00, res += 8; if (x & 0xF0F0F0F0F0F0F0F0) x &= 0xF0F0F0F0F0F0F0F0, res += 4; if (x & 0xCCCCCCCCCCCCCCCC) x &= 0xCCCCCCCCCCCCCCCC, res += 2; return res + ((x & 0xAAAAAAAAAAAAAAAA) ? 1 : 0); } inline CONSTEXPR int ceil_log2(ull x) { return x ? msb(x - 1) + 1 : 0; } inline CONSTEXPR ull reverse(ull x) { x = ((x & 0xAAAAAAAAAAAAAAAA) >> 1) | ((x & 0x5555555555555555) << 1); x = ((x & 0xCCCCCCCCCCCCCCCC) >> 2) | ((x & 0x3333333333333333) << 2); x = ((x & 0xF0F0F0F0F0F0F0F0) >> 4) | ((x & 0x0F0F0F0F0F0F0F0F) << 4); x = ((x & 0xFF00FF00FF00FF00) >> 8) | ((x & 0x00FF00FF00FF00FF) << 8); x = ((x & 0xFFFF0000FFFF0000) >> 16) | ((x & 0x0000FFFF0000FFFF) << 16); return (x >> 32) | (x << 32); } inline CONSTEXPR ull reverse(ull x, int n) { return reverse(x) >> (64 - n); } } // namespace bitop inline CONSTEXPR int popcnt(ull x) noexcept { #if __cplusplus >= 202002L return std::popcount(x); #endif x = (x & 0x5555555555555555) + ((x >> 1) & 0x5555555555555555); x = (x & 0x3333333333333333) + ((x >> 2) & 0x3333333333333333); x = (x & 0x0f0f0f0f0f0f0f0f) + ((x >> 4) & 0x0f0f0f0f0f0f0f0f); x = (x & 0x00ff00ff00ff00ff) + ((x >> 8) & 0x00ff00ff00ff00ff); x = (x & 0x0000ffff0000ffff) + ((x >> 16) & 0x0000ffff0000ffff); return (x & 0x00000000ffffffff) + ((x >> 32) & 0x00000000ffffffff); } #line 2 "library/template/func.hpp" #line 6 "library/template/func.hpp" template<class T, class U, class Comp = std::less<>> inline constexpr bool chmin(T& a, const U& b, Comp cmp = Comp()) noexcept(noexcept(cmp(b, a))) { return cmp(b, a) ? a = b, true : false; } template<class T, class U, class Comp = std::less<>> inline constexpr bool chmax(T& a, const U& b, Comp cmp = Comp()) noexcept(noexcept(cmp(a, b))) { return cmp(a, b) ? a = b, true : false; } inline CONSTEXPR ll gcd(ll a, ll b) { if (a < 0) a = -a; if (b < 0) b = -b; while (b) { const ll c = a; a = b; b = c % b; } return a; } inline CONSTEXPR ll lcm(ll a, ll b) { return a / gcd(a, b) * b; } inline CONSTEXPR bool is_prime(ll N) { if (N <= 1) return false; for (ll i = 2; i * i <= N; ++i) { if (N % i == 0) return false; } return true; } inline std::vector<ll> prime_factor(ll N) { std::vector<ll> res; for (ll i = 2; i * i <= N; ++i) { while (N % i == 0) { res.push_back(i); N /= i; } } if (N != 1) res.push_back(N); return res; } inline CONSTEXPR ll my_pow(ll a, ll b) { ll res = 1; while (b) { if (b & 1) res *= a; b >>= 1; a *= a; } return res; } inline CONSTEXPR ll mod_pow(ll a, ll b, ll mod) { assert(mod > 0); if (mod == 1) return 0; a %= mod; ll res = 1; while (b) { if (b & 1) (res *= a) %= mod; b >>= 1; (a *= a) %= mod; } return res; } inline PLL extGCD(ll a, ll b) { const ll n = a, m = b; ll x = 1, y = 0, u = 0, v = 1; ll t; while (b) { t = a / b; std::swap(a -= t * b, b); std::swap(x -= t * u, u); std::swap(y -= t * v, v); } if (x < 0) { x += m; y -= n; } return {x, y}; } inline ll mod_inv(ll a, ll mod) { ll b = mod; ll x = 1, u = 0; ll t; while (b) { t = a / b; std::swap(a -= t * b, b); std::swap(x -= t * u, u); } if (x < 0) x += mod; assert(a == 1); return x; } #line 2 "library/template/util.hpp" #line 6 "library/template/util.hpp" template<class F> class RecLambda { private: F f; public: explicit constexpr RecLambda(F&& f_) : f(std::forward<F>(f_)) {} template<class... Args> constexpr auto operator()(Args&&... args) -> decltype(f(*this, std::forward<Args>(args)...)) { return f(*this, std::forward<Args>(args)...); } }; template<class F> inline constexpr RecLambda<F> rec_lambda(F&& f) { return RecLambda<F>(std::forward<F>(f)); } template<class Head, class... Tail> struct multi_dim_vector { using type = std::vector<typename multi_dim_vector<Tail...>::type>; }; template<class T> struct multi_dim_vector<T> { using type = T; }; template<class T, class Arg> constexpr std::vector<T> make_vec(int n, Arg&& arg) { return std::vector<T>(n, std::forward<Arg>(arg)); } template<class T, class... Args> constexpr typename multi_dim_vector<Args..., T>::type make_vec(int n, Args&&... args) { return typename multi_dim_vector<Args..., T>::type( n, make_vec<T>(std::forward<Args>(args)...)); } template<class T, class Comp = std::less<T>> class compressor { private: std::vector<T> dat; Comp cmp; bool sorted = false; public: compressor() : compressor(Comp()) {} compressor(const Comp& cmp) : cmp(cmp) {} compressor(const std::vector<T>& vec, bool f = false, const Comp& cmp = Comp()) : dat(vec), cmp(cmp) { if (f) build(); } compressor(std::vector<T>&& vec, bool f = false, const Comp& cmp = Comp()) : dat(std::move(vec)), cmp(cmp) { if (f) build(); } compressor(std::initializer_list<T> il, bool f = false, const Comp& cmp = Comp()) : dat(all(il)), cmp(cmp) { if (f) build(); } void reserve(int n) { assert(!sorted); dat.reserve(n); } void push_back(const T& v) { assert(!sorted); dat.push_back(v); } void push_back(T&& v) { assert(!sorted); dat.push_back(std::move(v)); } template<class... Args> void emplace_back(Args&&... args) { assert(!sorted); dat.emplace_back(std::forward<Args>(args)...); } void push(const std::vector<T>& vec) { assert(!sorted); const int n = dat.size(); dat.resize(n + vec.size()); rep (i, vec.size()) dat[n + i] = vec[i]; } int build() { assert(!sorted); sorted = true; std::sort(all(dat), cmp); dat.erase(std::unique(all(dat), [&](const T& a, const T& b) -> bool { return !cmp(a, b) && !cmp(b, a); }), dat.end()); return dat.size(); } const T& operator[](int k) const& { assert(sorted); assert(0 <= k && k < (int)dat.size()); return dat[k]; } int get(const T& val) const { assert(sorted); auto itr = std::lower_bound(all(dat), val, cmp); assert(itr != dat.end() && !cmp(val, *itr)); return itr - dat.begin(); } int lower_bound(const T& val) const { assert(sorted); auto itr = std::lower_bound(all(dat), val, cmp); return itr - dat.begin(); } int upper_bound(const T& val) const { assert(sorted); auto itr = std::upper_bound(all(dat), val, cmp); return itr - dat.begin(); } bool contains(const T& val) const { assert(sorted); return std::binary_search(all(dat), val, cmp); } std::vector<int> pressed(const std::vector<T>& vec) const { assert(sorted); std::vector<int> res(vec.size()); rep (i, vec.size()) res[i] = get(vec[i]); return res; } void press(std::vector<T>& vec) const { assert(sorted); each_for (i : vec) i = get(i); } int size() const { assert(sorted); return dat.size(); } }; #line 2 "library/graph/flow/KProjectSelectionProblem.hpp" #line 2 "library/graph/flow/ProjectSelectionProblem.hpp" #line 2 "library/graph/flow/MaxFlow.hpp" #line 4 "library/graph/flow/MaxFlow.hpp" template<class T> class MaxFlow { private: struct edge_ { int to, rev; T cap; }; int n; std::vector<std::vector<edge_>> g; std::vector<std::pair<int, int>> pos; public: struct edge { int from, to; T cap, flow; }; MaxFlow() : n(0) {} explicit MaxFlow(int n) : n(n), g(n) {} int add_edge(int from, int to, T cap) { assert(0 <= from && from < n); assert(0 <= to && to < n); assert(0 <= cap); pos.emplace_back(from, (int)(g[from].size())); g[from].push_back({to, (int)(g[to].size()), cap}); g[to].push_back({from, (int)(g[from].size()) - 1, T{0}}); return (int)(pos.size()) - 1; } edge get_edge(int i) { int m = (int)(pos.size()); assert(0 <= i && i < m); const auto& e = g[pos[i].first][pos[i].second]; const auto& re = g[e.to][e.rev]; return edge{pos[i].first, e.to, e.cap + re.cap, re.cap}; } std::vector<edge> edges() { int m = (int)(pos.size()); std::vector<edge> res(m); for (int i = 0; i < m; i++) res[i] = get_edge(i); return res; } T flow(int s, int t) { return flow(s, t, infinity<T>::max); } T flow(int s, int t, T flow_limit) { assert(0 <= s && s < n); assert(0 <= t && t < n); assert(s != t); T res = T{0}; while (res < flow_limit) { std::vector<int> dist(n, -1); { std::queue<int> que; que.push(s); dist[s] = 0; while (!que.empty()) { int v = que.front(); que.pop(); each_const (e : g[v]) { if (e.cap > T{0} && dist[e.to] == -1) { dist[e.to] = dist[v] + 1; que.push(e.to); } } } } std::vector<int> idx(n, 0); T f = rec_lambda([&](auto&& self, int v, T f) -> T { if (v == t) return f; T res = 0; for (int& i = idx[v]; i < (int)(g[v].size()); i++) { auto& e = g[v][i]; if (e.cap > T{0} && dist[v] + 1 == dist[e.to]) { T d = self(e.to, std::min(f - res, e.cap)); if (d == T{0}) continue; e.cap -= d; g[e.to][e.rev].cap += d; res += d; if (res == f) return res; } } return res; })(s, flow_limit - res); if (f == T{0}) break; res += f; } return res; } std::vector<bool> min_cut(int s) const { assert(0 <= s && s < n); std::vector<bool> visited(n); std::queue<int> que; que.push(s); visited[s] = true; while (!que.empty()) { int v = que.front(); que.pop(); each_const (e : g[v]) { if (e.cap > T{0} && !visited[e.to]) { visited[e.to] = true; que.push(e.to); } } } return visited; } }; /** * @brief MaxFlow(最大流) * @docs docs/graph/flow/MaxFlow.md */ #line 5 "library/graph/flow/ProjectSelectionProblem.hpp" template<class T> class ProjectSelectionProblem { private: int n, naux; int source, sink; public: using Cost0 = T; using Cost1 = std::array<Cost0, 2>; using Cost2 = std::array<Cost1, 2>; using Cost3 = std::array<Cost2, 2>; private: Cost0 c0; std::vector<Cost1> c1; std::vector<std::tuple<int, int, Cost0>> edges; static constexpr Cost0 neg(Cost0 c) { return -c; } template<class U> static constexpr std::array<U, 2> neg(const std::array<U, 2>& c) { return {{neg(c[0]), neg(c[1])}}; } public: ProjectSelectionProblem() : ProjectSelectionProblem(0) {} ProjectSelectionProblem(int n) : n(n), naux(0), source(-1), sink(-2), c0(0), c1(n, {0, 0}) {} void add_cost(Cost0 c) { c0 += c; } void add_profit(Cost0 c) { c0 -= c; } void add_cost_0(int i, Cost0 c) { add_cost(i, Cost1{{c, 0}}); } void add_cost_1(int i, Cost0 c) { add_cost(i, Cost1{{0, c}}); } void add_profit_0(int i, Cost0 c) { add_cost(i, Cost1{{-c, 0}}); } void add_profit_1(int i, Cost0 c) { add_cost(i, Cost1{{0, -c}}); } void add_cost(int i, Cost1 c) { assert(0 <= i && i < n); c1[i][0] += c[0]; c1[i][1] += c[1]; } void add_profit(int i, Cost1 c) { add_cost(i, neg(c)); } void add_cost_01(int i, int j, Cost0 c) { assert(0 <= i && i < n); assert(0 <= j && j < n); assert(i != j); assert(c >= 0); edges.emplace_back(i, j, c); } // c must be submodular (c[0][0] + c[1][1] <= c[0][1] + c[1][0]) void add_cost(int i, int j, Cost2 c) { assert(0 <= i && i < n); assert(0 <= j && j < n); assert(i != j); assert(c[0][0] + c[1][1] <= c[0][1] + c[1][0]); add_cost(c[0][0]); add_cost_1(i, c[1][0] - c[0][0]); add_cost_1(j, c[1][1] - c[1][0]); add_cost_01(i, j, c[0][1] + c[1][0] - c[0][0] - c[1][1]); } void add_profit(int i, int j, Cost2 c) { add_cost(i, j, neg(c)); } void add_cost_10(int i, int j, Cost0 c) { add_cost_01(j, i, c); } void add_cost_neq(int i, int j, Cost0 c) { add_cost(i, j, Cost2{{{0, c}, {c, 0}}}); } void add_profit_00(int i, int j, Cost0 c) { add_cost(i, j, Cost2{{{-c, 0}, {0, 0}}}); } void add_profit_11(int i, int j, Cost0 c) { add_cost(i, j, Cost2{{{0, 0}, {0, -c}}}); } void add_profit_eq(int i, int j, Cost0 c) { add_cost(i, j, Cost2{{{-c, 0}, {0, -c}}}); } template<class Cont> void add_profit_all_1(const Cont& cont, Cost0 c) { assert(c >= 0); if (cont.empty()) return add_profit(c); if (cont.size() == 1) return add_profit_1(cont[0], c); if (cont.size() == 2) return add_profit_11(cont[0], cont[1], c); int aux = n + naux++; add_profit(c); edges.emplace_back(aux, sink, c); for (int i : cont) edges.emplace_back(i, aux, c + 1); } template<class Cont> void add_profit_all_0(const Cont& cont, Cost0 c) { assert(c >= 0); if (cont.empty()) return add_profit(c); if (cont.size() == 1) return add_profit_0(cont[0], c); if (cont.size() == 2) return add_profit_00(cont[0], cont[1], c); int aux = n + naux++; add_profit(c); edges.emplace_back(source, aux, c); for (int i : cont) edges.emplace_back(aux, i, c + 1); } // c must be submodular (c[S&T] + c[S|T] <= c[S] + c[T]) void add_cost(int i, int j, int k, Cost3 c) { assert(0 <= i && i < n); assert(0 <= j && j < n); assert(0 <= k && k < n); assert(i != j && j != k && k != i); const Cost0 A = c[0][0][0], B = c[0][0][1], C = c[0][1][0], D = c[0][1][1], E = c[1][0][0], F = c[1][0][1], G = c[1][1][0], H = c[1][1][1]; const Cost0 P = (A + D + F + G) - (B + C + E + H); if (P >= 0) { const Cost0 P1 = F - B, P2 = G - E, P3 = D - C, P12 = (C + E) - (A + G), P23 = (B + C) - (A + D), P31 = (B + E) - (A + F); add_cost(A); add_cost_1(i, P1); add_cost_1(j, P2); add_cost_1(k, P3); add_cost_01(i, j, P12); add_cost_01(j, k, P23); add_cost_01(k, i, P31); add_profit_all_1(std::array<int, 3>{i, j, k}, P); } else { const Cost0 P1 = C - G, P2 = B - D, P3 = E - F, P21 = (D + F) - (B + H), P32 = (F + G) - (E + H), P13 = (D + G) - (C + H); add_cost(H); add_cost_0(i, P1); add_cost_0(j, P2); add_cost_0(k, P3); add_cost_01(j, i, P21); add_cost_01(k, j, P32); add_cost_01(i, k, P13); add_profit_all_0(std::array<int, 3>{i, j, k}, -P); } } std::pair<Cost0, std::vector<bool>> min_cost() { MaxFlow<Cost0> g(n + naux + 2); int s = n + naux, t = n + naux + 1; for (int i = 0; i < n; i++) { if (c1[i][0] == c1[i][1]) { add_cost(c1[i][0]); } else if (c1[i][0] < c1[i][1]) { add_cost(c1[i][0]); edges.emplace_back(s, i, c1[i][1] - c1[i][0]); } else { add_cost(c1[i][1]); edges.emplace_back(i, t, c1[i][0] - c1[i][1]); } c1[i][0] = c1[i][1] = 0; } for (const auto& [i, j, c] : edges) { int u = i == source ? s : i == sink ? t : i; int v = j == source ? s : j == sink ? t : j; g.add_edge(u, v, c); } auto f = g.flow(s, t) + c0; auto x = g.min_cut(s); x.resize(n); for (int i = 0; i < n; ++i) x[i] = !x[i]; return {f, x}; } std::pair<Cost0, std::vector<bool>> max_profit() { auto res = min_cost(); res.first = -res.first; return res; } }; /** * @brief ProjectSelectionProblem(燃やす埋める) * @docs docs/graph/flow/ProjectSelectionProblem.md */ #line 5 "library/graph/flow/KProjectSelectionProblem.hpp" template<class T> class KProjectSelectionProblem { private: int n; std::vector<int> sz; std::vector<std::vector<int>> xs; ProjectSelectionProblem<T> psp; public: using Cost0 = T; using Cost1 = std::vector<Cost0>; using Cost2 = std::vector<Cost1>; public: KProjectSelectionProblem(std::vector<int> sz) : n(sz.size()), sz(sz), xs(n) { int m = 0; rep (i, n) { assert(sz[i] >= 1); xs[i].resize(sz[i] - 1); rep (j, sz[i] - 1) xs[i][j] = m++; } psp = ProjectSelectionProblem<T>(m); rep (i, n) { rep (j, sz[i] - 2) { psp.add_cost_10(xs[i][j], xs[i][j + 1], infinity<T>::value); } } } KProjectSelectionProblem(int n, int m) : KProjectSelectionProblem(std::vector<int>(n, m)) {} void add_cost(Cost0 c) { psp.add_cost(c); } void add_profit(Cost0 c) { psp.add_profit(c); } void add_cost(int i, Cost1 c) { assert(0 <= i && i < n); assert((int)c.size() == sz[i]); psp.add_cost(c.back()); rep (j, sz[i] - 1) psp.add_cost_1(xs[i][j], c[j] - c[j + 1]); } void add_profit(int i, Cost1 c) { for (Cost0& x : c) x = -x; add_cost(i, c); } // c must be monge void add_cost(int i, int j, Cost2 c) { assert(0 <= i && i < n); assert(0 <= j && j < n); assert(i != j); assert((int)c.size() == sz[i]); rep (k, sz[i]) assert((int)c[k].size() == sz[j]); Cost1 ci(sz[i]), cj(sz[j]); rep (k, sz[i]) { ci[k] = c[k][0]; rep (l, sz[j]) c[k][l] -= ci[k]; } rep (l, sz[j]) { cj[l] = c[0][l]; rep (k, sz[i]) c[k][l] -= cj[l]; } add_cost(i, ci); add_cost(j, cj); rep (k, sz[i] - 1) rep (l, sz[j] - 1) { Cost0 cij = c[k][l] + c[k + 1][l + 1] - c[k][l + 1] - c[k + 1][l]; assert(cij <= 0); // monge psp.add_profit_00(xs[i][k], xs[j][l], -cij); } } void add_profit(int i, int j, Cost2 c) { for (Cost1& x : c) for (Cost0& y : x) y = -y; add_cost(i, j, c); } std::pair<Cost0, std::vector<int>> min_cost() { auto [c, x] = psp.min_cost(); std::vector<int> res(n); rep (i, n) { rep (j, sz[i] - 1) { if (!x[xs[i][j]]) ++res[i]; } } return {c, res}; } std::pair<Cost0, std::vector<int>> max_profit() { auto res = min_cost(); res.first = -res.first; return res; } }; /** * @brief KProjectSelectionProblem(K値燃やす埋める) * @docs docs/graph/flow/KProjectSelectionProblem.md */ #line 4 "library/test/yuki/119-KPSP.test.cpp" using namespace std; int main() { int N; scan >> N; KProjectSelectionProblem<ll> psp(N, 3); rep (i, N) { ll b, c; scan >> b >> c; psp.add_profit(i, {c, 0, b}); } int M; scan >> M; rep (M) { int x, y; scan >> x >> y; psp.add_cost(x, y, {{0, 0, 0}, {0, 0, 0}, {inf, 0, 0}}); } prints(psp.max_profit().first); }