結果
問題 | No.1649 Manhattan Square |
ユーザー | maspy |
提出日時 | 2022-12-04 20:12:52 |
言語 | C++17 (gcc 12.3.0 + boost 1.83.0) |
結果 |
AC
|
実行時間 | 1,426 ms / 3,000 ms |
コード長 | 25,948 bytes |
コンパイル時間 | 3,828 ms |
コンパイル使用メモリ | 254,756 KB |
実行使用メモリ | 256,512 KB |
最終ジャッジ日時 | 2024-10-11 22:04:53 |
合計ジャッジ時間 | 53,536 ms |
ジャッジサーバーID (参考情報) |
judge4 / judge1 |
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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 | 156 ms
253,568 KB |
testcase_01 | AC | 145 ms
253,448 KB |
testcase_02 | AC | 158 ms
253,552 KB |
testcase_03 | AC | 157 ms
253,568 KB |
testcase_04 | AC | 157 ms
253,392 KB |
testcase_05 | AC | 158 ms
253,568 KB |
testcase_06 | AC | 157 ms
253,628 KB |
testcase_07 | AC | 1,267 ms
256,256 KB |
testcase_08 | AC | 1,248 ms
256,396 KB |
testcase_09 | AC | 1,250 ms
256,384 KB |
testcase_10 | AC | 1,237 ms
256,384 KB |
testcase_11 | AC | 1,255 ms
256,256 KB |
testcase_12 | AC | 1,366 ms
256,384 KB |
testcase_13 | AC | 1,347 ms
256,440 KB |
testcase_14 | AC | 1,348 ms
256,376 KB |
testcase_15 | AC | 1,321 ms
256,356 KB |
testcase_16 | AC | 1,426 ms
256,384 KB |
testcase_17 | AC | 1,326 ms
256,384 KB |
testcase_18 | AC | 1,280 ms
256,336 KB |
testcase_19 | AC | 1,328 ms
256,384 KB |
testcase_20 | AC | 1,341 ms
256,384 KB |
testcase_21 | AC | 1,327 ms
256,384 KB |
testcase_22 | AC | 1,247 ms
256,384 KB |
testcase_23 | AC | 1,264 ms
256,456 KB |
testcase_24 | AC | 1,248 ms
256,384 KB |
testcase_25 | AC | 1,267 ms
256,256 KB |
testcase_26 | AC | 1,244 ms
256,384 KB |
testcase_27 | AC | 1,261 ms
256,384 KB |
testcase_28 | AC | 1,278 ms
256,256 KB |
testcase_29 | AC | 1,251 ms
256,384 KB |
testcase_30 | AC | 1,248 ms
256,256 KB |
testcase_31 | AC | 1,245 ms
256,356 KB |
testcase_32 | AC | 1,231 ms
256,256 KB |
testcase_33 | AC | 1,256 ms
256,364 KB |
testcase_34 | AC | 1,274 ms
256,256 KB |
testcase_35 | AC | 1,270 ms
256,384 KB |
testcase_36 | AC | 1,289 ms
256,384 KB |
testcase_37 | AC | 1,276 ms
256,256 KB |
testcase_38 | AC | 1,267 ms
256,428 KB |
testcase_39 | AC | 1,263 ms
256,512 KB |
testcase_40 | AC | 1,268 ms
256,384 KB |
testcase_41 | AC | 1,264 ms
256,384 KB |
testcase_42 | AC | 714 ms
256,256 KB |
testcase_43 | AC | 146 ms
253,528 KB |
testcase_44 | AC | 146 ms
253,444 KB |
ソースコード
#line 1 "main.cpp" #define PROBLEM "https://yukicoder.me/problems/no/1649" #line 1 "library/my_template.hpp" #pragma GCC optimize("Ofast") #pragma GCC optimize("unroll-loops") #include <bits/stdc++.h> using namespace std; using ll = long long; using pi = pair<ll, ll>; using vi = vector<ll>; using u32 = unsigned int; using u64 = unsigned long long; using i128 = __int128; template <class T> using vc = vector<T>; template <class T> using vvc = vector<vc<T>>; template <class T> using vvvc = vector<vvc<T>>; template <class T> using vvvvc = vector<vvvc<T>>; template <class T> using vvvvvc = vector<vvvvc<T>>; template <class T> using pq = priority_queue<T>; template <class T> using pqg = priority_queue<T, vector<T>, greater<T>>; #define vec(type, name, ...) vector<type> name(__VA_ARGS__) #define vv(type, name, h, ...) \ vector<vector<type>> name(h, vector<type>(__VA_ARGS__)) #define vvv(type, name, h, w, ...) \ vector<vector<vector<type>>> name( \ h, vector<vector<type>>(w, vector<type>(__VA_ARGS__))) #define vvvv(type, name, a, b, c, ...) \ vector<vector<vector<vector<type>>>> name( \ a, vector<vector<vector<type>>>( \ b, vector<vector<type>>(c, vector<type>(__VA_ARGS__)))) // https://trap.jp/post/1224/ #define FOR1(a) for (ll _ = 0; _ < ll(a); ++_) #define FOR2(i, a) for (ll i = 0; i < ll(a); ++i) #define FOR3(i, a, b) for (ll i = a; i < ll(b); ++i) #define FOR4(i, a, b, c) for (ll i = a; i < ll(b); i += (c)) #define FOR1_R(a) for (ll i = (a)-1; i >= ll(0); --i) #define FOR2_R(i, a) for (ll i = (a)-1; i >= ll(0); --i) #define FOR3_R(i, a, b) for (ll i = (b)-1; i >= ll(a); --i) #define FOR4_R(i, a, b, c) for (ll i = (b)-1; i >= ll(a); i -= (c)) #define overload4(a, b, c, d, e, ...) e #define FOR(...) overload4(__VA_ARGS__, FOR4, FOR3, FOR2, FOR1)(__VA_ARGS__) #define FOR_R(...) \ overload4(__VA_ARGS__, FOR4_R, FOR3_R, FOR2_R, FOR1_R)(__VA_ARGS__) #define FOR_subset(t, s) for (ll t = s; t >= 0; t = (t == 0 ? -1 : (t - 1) & s)) #define all(x) x.begin(), x.end() #define len(x) ll(x.size()) #define elif else if #define eb emplace_back #define mp make_pair #define mt make_tuple #define fi first #define se second #define stoi stoll template <typename T, typename U> T SUM(const vector<U> &A) { T sum = 0; for (auto &&a: A) sum += a; return sum; } #define MIN(v) *min_element(all(v)) #define MAX(v) *max_element(all(v)) #define LB(c, x) distance((c).begin(), lower_bound(all(c), (x))) #define UB(c, x) distance((c).begin(), upper_bound(all(c), (x))) #define UNIQUE(x) sort(all(x)), x.erase(unique(all(x)), x.end()) int popcnt(int x) { return __builtin_popcount(x); } int popcnt(u32 x) { return __builtin_popcount(x); } int popcnt(ll x) { return __builtin_popcountll(x); } int popcnt(u64 x) { return __builtin_popcountll(x); } // (0, 1, 2, 3, 4) -> (-1, 0, 1, 1, 2) int topbit(int x) { return (x == 0 ? -1 : 31 - __builtin_clz(x)); } int topbit(u32 x) { return (x == 0 ? -1 : 31 - __builtin_clz(x)); } int topbit(ll x) { return (x == 0 ? -1 : 63 - __builtin_clzll(x)); } int topbit(u64 x) { return (x == 0 ? -1 : 63 - __builtin_clzll(x)); } // (0, 1, 2, 3, 4) -> (-1, 0, 1, 0, 2) int lowbit(int x) { return (x == 0 ? -1 : __builtin_ctz(x)); } int lowbit(u32 x) { return (x == 0 ? -1 : __builtin_ctz(x)); } int lowbit(ll x) { return (x == 0 ? -1 : __builtin_ctzll(x)); } int lowbit(u64 x) { return (x == 0 ? -1 : __builtin_ctzll(x)); } template <typename T> T pick(deque<T> &que) { T a = que.front(); que.pop_front(); return a; } template <typename T> T pick(pq<T> &que) { T a = que.top(); que.pop(); return a; } template <typename T> T pick(pqg<T> &que) { assert(que.size()); T a = que.top(); que.pop(); return a; } template <typename T> T pick(vc<T> &que) { assert(que.size()); T a = que.back(); que.pop_back(); return a; } template <typename T, typename U> T ceil(T x, U y) { return (x > 0 ? (x + y - 1) / y : x / y); } template <typename T, typename U> T floor(T x, U y) { return (x > 0 ? x / y : (x - y + 1) / y); } template <typename T, typename U> pair<T, T> divmod(T x, U y) { T q = floor(x, y); return {q, x - q * y}; } template <typename F> ll binary_search(F check, ll ok, ll ng) { assert(check(ok)); while (abs(ok - ng) > 1) { auto x = (ng + ok) / 2; tie(ok, ng) = (check(x) ? mp(x, ng) : mp(ok, x)); } return ok; } template <typename F> double binary_search_real(F check, double ok, double ng, int iter = 100) { FOR(iter) { double x = (ok + ng) / 2; tie(ok, ng) = (check(x) ? mp(x, ng) : mp(ok, x)); } return (ok + ng) / 2; } template <class T, class S> inline bool chmax(T &a, const S &b) { return (a < b ? a = b, 1 : 0); } template <class T, class S> inline bool chmin(T &a, const S &b) { return (a > b ? a = b, 1 : 0); } vc<int> s_to_vi(const string &S, char first_char) { vc<int> A(S.size()); FOR(i, S.size()) { A[i] = S[i] - first_char; } return A; } template <typename T, typename U> vector<T> cumsum(vector<U> &A, int off = 1) { int N = A.size(); vector<T> B(N + 1); FOR(i, N) { B[i + 1] = B[i] + A[i]; } if (off == 0) B.erase(B.begin()); return B; } template <typename CNT, typename T> vc<CNT> bincount(const vc<T> &A, int size) { vc<CNT> C(size); for (auto &&x: A) { ++C[x]; } return C; } // stable template <typename T> vector<int> argsort(const vector<T> &A) { vector<int> ids(A.size()); iota(all(ids), 0); sort(all(ids), [&](int i, int j) { return A[i] < A[j] || (A[i] == A[j] && i < j); }); return ids; } // A[I[0]], A[I[1]], ... template <typename T> vc<T> rearrange(const vc<T> &A, const vc<int> &I) { int n = len(I); vc<T> B(n); FOR(i, n) B[i] = A[I[i]]; return B; } #line 1 "library/other/io.hpp" // based on yosupo's fastio #include <unistd.h> namespace fastio { // クラスが read(), print() を持っているかを判定するメタ関数 struct has_write_impl { template <class T> static auto check(T &&x) -> decltype(x.write(), std::true_type{}); template <class T> static auto check(...) -> std::false_type; }; template <class T> class has_write : public decltype(has_write_impl::check<T>(std::declval<T>())) { }; struct has_read_impl { template <class T> static auto check(T &&x) -> decltype(x.read(), std::true_type{}); template <class T> static auto check(...) -> std::false_type; }; template <class T> class has_read : public decltype(has_read_impl::check<T>(std::declval<T>())) {}; struct Scanner { FILE *fp; char line[(1 << 15) + 1]; size_t st = 0, ed = 0; void reread() { memmove(line, line + st, ed - st); ed -= st; st = 0; ed += fread(line + ed, 1, (1 << 15) - ed, fp); line[ed] = '\0'; } bool succ() { while (true) { if (st == ed) { reread(); if (st == ed) return false; } while (st != ed && isspace(line[st])) st++; if (st != ed) break; } if (ed - st <= 50) { bool sep = false; for (size_t i = st; i < ed; i++) { if (isspace(line[i])) { sep = true; break; } } if (!sep) reread(); } return true; } template <class T, enable_if_t<is_same<T, string>::value, int> = 0> bool read_single(T &ref) { if (!succ()) return false; while (true) { size_t sz = 0; while (st + sz < ed && !isspace(line[st + sz])) sz++; ref.append(line + st, sz); st += sz; if (!sz || st != ed) break; reread(); } return true; } template <class T, enable_if_t<is_integral<T>::value, int> = 0> bool read_single(T &ref) { if (!succ()) return false; bool neg = false; if (line[st] == '-') { neg = true; st++; } ref = T(0); while (isdigit(line[st])) { ref = 10 * ref + (line[st++] & 0xf); } if (neg) ref = -ref; return true; } template <typename T, typename enable_if<has_read<T>::value>::type * = nullptr> inline bool read_single(T &x) { x.read(); return true; } bool read_single(double &ref) { string s; if (!read_single(s)) return false; ref = std::stod(s); return true; } bool read_single(char &ref) { string s; if (!read_single(s) || s.size() != 1) return false; ref = s[0]; return true; } template <class T> bool read_single(vector<T> &ref) { for (auto &d: ref) { if (!read_single(d)) return false; } return true; } template <class T, class U> bool read_single(pair<T, U> &p) { return (read_single(p.first) && read_single(p.second)); } template <size_t N = 0, typename T> void read_single_tuple(T &t) { if constexpr (N < std::tuple_size<T>::value) { auto &x = std::get<N>(t); read_single(x); read_single_tuple<N + 1>(t); } } template <class... T> bool read_single(tuple<T...> &tpl) { read_single_tuple(tpl); return true; } void read() {} template <class H, class... T> void read(H &h, T &... t) { bool f = read_single(h); assert(f); read(t...); } Scanner(FILE *fp) : fp(fp) {} }; struct Printer { Printer(FILE *_fp) : fp(_fp) {} ~Printer() { flush(); } static constexpr size_t SIZE = 1 << 15; FILE *fp; char line[SIZE], small[50]; size_t pos = 0; void flush() { fwrite(line, 1, pos, fp); pos = 0; } void write(const char &val) { if (pos == SIZE) flush(); line[pos++] = val; } template <class T, enable_if_t<is_integral<T>::value, int> = 0> void write(T val) { if (pos > (1 << 15) - 50) flush(); if (val == 0) { write('0'); return; } if (val < 0) { write('-'); val = -val; // todo min } size_t len = 0; while (val) { small[len++] = char(0x30 | (val % 10)); val /= 10; } for (size_t i = 0; i < len; i++) { line[pos + i] = small[len - 1 - i]; } pos += len; } void write(const string &s) { for (char c: s) write(c); } void write(const char *s) { size_t len = strlen(s); for (size_t i = 0; i < len; i++) write(s[i]); } void write(const double &x) { ostringstream oss; oss << fixed << setprecision(15) << x; string s = oss.str(); write(s); } void write(const long double &x) { ostringstream oss; oss << fixed << setprecision(15) << x; string s = oss.str(); write(s); } template <typename T, typename enable_if<has_write<T>::value>::type * = nullptr> inline void write(T x) { x.write(); } template <class T> void write(const vector<T> &val) { auto n = val.size(); for (size_t i = 0; i < n; i++) { if (i) write(' '); write(val[i]); } } template <class T, class U> void write(const pair<T, U> &val) { write(val.first); write(' '); write(val.second); } template <size_t N = 0, typename T> void write_tuple(const T &t) { if constexpr (N < std::tuple_size<T>::value) { if constexpr (N > 0) { write(' '); } const auto &x = std::get<N>(t); write(x); write_tuple<N + 1>(t); } } template <class... T> bool write(tuple<T...> &tpl) { write_tuple(tpl); return true; } template <class T, size_t S> void write(const array<T, S> &val) { auto n = val.size(); for (size_t i = 0; i < n; i++) { if (i) write(' '); write(val[i]); } } void write(i128 val) { string s; bool negative = 0; if (val < 0) { negative = 1; val = -val; } while (val) { s += '0' + int(val % 10); val /= 10; } if (negative) s += "-"; reverse(all(s)); if (len(s) == 0) s = "0"; write(s); } }; Scanner scanner = Scanner(stdin); Printer printer = Printer(stdout); void flush() { printer.flush(); } void print() { printer.write('\n'); } template <class Head, class... Tail> void print(Head &&head, Tail &&... tail) { printer.write(head); if (sizeof...(Tail)) printer.write(' '); print(forward<Tail>(tail)...); } void read() {} template <class Head, class... Tail> void read(Head &head, Tail &... tail) { scanner.read(head); read(tail...); } } // namespace fastio using fastio::print; using fastio::flush; using fastio::read; #define INT(...) \ int __VA_ARGS__; \ read(__VA_ARGS__) #define LL(...) \ ll __VA_ARGS__; \ read(__VA_ARGS__) #define STR(...) \ string __VA_ARGS__; \ read(__VA_ARGS__) #define CHAR(...) \ char __VA_ARGS__; \ read(__VA_ARGS__) #define DBL(...) \ double __VA_ARGS__; \ read(__VA_ARGS__) #define VEC(type, name, size) \ vector<type> name(size); \ read(name) #define VV(type, name, h, w) \ vector<vector<type>> name(h, vector<type>(w)); \ read(name) void YES(bool t = 1) { print(t ? "YES" : "NO"); } void NO(bool t = 1) { YES(!t); } void Yes(bool t = 1) { print(t ? "Yes" : "No"); } void No(bool t = 1) { Yes(!t); } void yes(bool t = 1) { print(t ? "yes" : "no"); } void no(bool t = 1) { yes(!t); } #line 2 "library/ds/segtree/dynamic_segtree.hpp" template <typename Monoid, bool PERSISTENT, int NODES> struct Dynamic_SegTree { using MX = Monoid; using X = typename MX::value_type; using F = function<X(ll, ll)>; F default_prod; struct Node { Node *l, *r; X x; }; const ll L0, R0; Node *pool; int pid; using np = Node *; Dynamic_SegTree( ll L0, ll R0, F default_prod = [](ll l, ll r) -> X { return MX::unit(); }) : default_prod(default_prod), L0(L0), R0(R0), pid(0) { pool = new Node[NODES]; } np new_node(const X x) { pool[pid].l = pool[pid].r = nullptr; pool[pid].x = x; return &(pool[pid++]); } np new_node(ll l, ll r) { return new_node(default_prod(l, r)); } np new_node() { return new_node(L0, R0); } np new_node(const vc<X> &dat) { assert(pid && L0 == 0 && R0 == len(dat)); auto dfs = [&](auto &dfs, ll l, ll r) -> Node * { if (l == r) return nullptr; if (r == l + 1) return new_node(dat[l]); ll m = (l + r) / 2; np l_root = dfs(dfs, l, m), r_root = dfs(dfs, m, r); X x = MX::op(l_root->x, r_root->x); np root = new_node(x); root->l = l_root, root->r = r_root; return root; }; return dfs(dfs, 0, len(dat)); } X prod(np root, ll l, ll r) { assert(pid && root && L0 <= l && l < r && r <= R0); X x = MX::unit(); prod_rec(root, L0, R0, l, r, x); return x; } np set(np root, ll i, const X &x) { assert(pid && root && L0 <= i && i < R0); return set_rec(root, L0, R0, i, x); } np multiply(np root, ll i, const X &x) { assert(pid && root && L0 <= i && i < R0); return multiply_rec(root, L0, R0, i, x); } template <typename F> ll max_right(np root, F check, ll L) { assert(pid && root && L0 <= L && L <= R0 && check(MX::unit())); X x = MX::unit(); return max_right_rec(root, check, L0, R0, L, x); } template <typename F> ll min_left(np root, F check, ll R) { assert(pid && L0 <= R && R <= R0 && check(MX::unit())); X x = MX::unit(); return min_left_rec(root, check, L0, R0, R, x); } vc<X> get_all(np root) { assert(root); vc<X> res; res.reserve(R0 - L0); auto dfs = [&](auto &dfs, np c, ll l, ll r) -> void { if (!c) c = new_node(l, r); if (r - l == 1) { res.eb(c->x); return; } ll m = (l + r) / 2; dfs(dfs, c->l, l, m); dfs(dfs, c->r, m, r); }; dfs(dfs, root, L0, R0); return res; } void reset() { pid = 0; } private: np copy_node(np c) { if (!c || !PERSISTENT) return c; pool[pid].l = c->l, pool[pid].r = c->r; pool[pid].x = c->x; return &(pool[pid++]); } np set_rec(np c, ll l, ll r, ll i, const X &x) { if (r == l + 1) { c = copy_node(c); c->x = x; return c; } ll m = (l + r) / 2; c = copy_node(c); if (i < m) { if (!c->l) c->l = new_node(l, m); c->l = set_rec(c->l, l, m, i, x); } else { if (!c->r) c->r = new_node(m, r); c->r = set_rec(c->r, m, r, i, x); } X xl = (c->l ? c->l->x : default_prod(l, m)); X xr = (c->r ? c->r->x : default_prod(m, r)); c->x = MX::op(xl, xr); return c; } np multiply_rec(np c, ll l, ll r, ll i, const X &x) { if (r == l + 1) { c = copy_node(c); c->x = MX::op(c->x, x); return c; } ll m = (l + r) / 2; c = copy_node(c); if (i < m) { if (!c->l) c->l = new_node(l, m); c->l = multiply_rec(c->l, l, m, i, x); } else { if (!c->r) c->r = new_node(m, r); c->r = multiply_rec(c->r, m, r, i, x); } X xl = (c->l ? c->l->x : default_prod(l, m)); X xr = (c->r ? c->r->x : default_prod(m, r)); c->x = MX::op(xl, xr); return c; } void prod_rec(np c, ll l, ll r, ll ql, ll qr, X &x) { chmax(ql, l); chmin(qr, r); if (ql >= qr) return; if (!c) { x = MX::op(x, default_prod(ql, qr)); return; } if (l == ql && r == qr) { x = MX::op(x, c->x); return; } ll m = (l + r) / 2; prod_rec(c->l, l, m, ql, qr, x); prod_rec(c->r, m, r, ql, qr, x); } template <typename F> ll max_right_rec(np c, const F &check, ll l, ll r, ll ql, X &x) { if (r <= ql) return R0; if (ql <= l && check(MX::op(x, c->x))) { x = MX::op(x, c->x); return R0; } if (r == l + 1) return l; ll m = (l + r) / 2; if (!c->l) c->l = new_node(l, m); ll k = max_right_rec(c->l, check, l, m, ql, x); if (k != R0) return k; if (!c->r) c->r = new_node(m, r); return max_right_rec(c->r, check, m, r, ql, x); } template <typename F> ll min_left_rec(np c, const F &check, ll l, ll r, ll qr, X &x) { if (qr <= l) return L0; if (r <= qr && check(MX::op(c->x, x))) { x = MX::op(x, c->x); return L0; } if (r == l + 1) return r; ll m = (l + r) / 2; if (!c->r) c->r = new_node(m, r); ll k = min_left_rec(c->r, check, m, r, qr, x); if (k != L0) return k; if (!c->l) c->l = new_node(l, m); return min_left_rec(c->l, check, l, m, qr, x); } }; #line 2 "library/mod/modint.hpp" template <int mod> struct modint { int val; constexpr modint(ll x = 0) noexcept { if (0 <= x && x < mod) val = x; else { x %= mod; val = (x < 0 ? x + mod : x); } } bool operator<(const modint &other) const { return val < other.val; } // To use std::map modint &operator+=(const modint &p) { if ((val += p.val) >= mod) val -= mod; return *this; } modint &operator-=(const modint &p) { if ((val += mod - p.val) >= mod) val -= mod; return *this; } modint &operator*=(const modint &p) { val = (int)(1LL * val * p.val % mod); return *this; } modint &operator/=(const modint &p) { *this *= p.inverse(); return *this; } modint operator-() const { return modint(-val); } modint operator+(const modint &p) const { return modint(*this) += p; } modint operator-(const modint &p) const { return modint(*this) -= p; } modint operator*(const modint &p) const { return modint(*this) *= p; } modint operator/(const modint &p) const { return modint(*this) /= p; } bool operator==(const modint &p) const { return val == p.val; } bool operator!=(const modint &p) const { return val != p.val; } modint inverse() const { int a = val, b = mod, u = 1, v = 0, t; while (b > 0) { t = a / b; swap(a -= t * b, b), swap(u -= t * v, v); } return modint(u); } modint pow(int64_t n) const { modint ret(1), mul(val); while (n > 0) { if (n & 1) ret *= mul; mul *= mul; n >>= 1; } return ret; } void write() { fastio::printer.write(val); } void read() { fastio::scanner.read(val); } static constexpr int get_mod() { return mod; } }; struct ArbitraryModInt { static constexpr bool is_modint = true; int val; ArbitraryModInt() : val(0) {} ArbitraryModInt(int64_t y) : val(y >= 0 ? y % get_mod() : (get_mod() - (-y) % get_mod()) % get_mod()) {} bool operator<(const ArbitraryModInt &other) const { return val < other.val; } // To use std::map<ArbitraryModInt, T> static int &get_mod() { static int mod = 0; return mod; } static void set_mod(int md) { get_mod() = md; } ArbitraryModInt &operator+=(const ArbitraryModInt &p) { if ((val += p.val) >= get_mod()) val -= get_mod(); return *this; } ArbitraryModInt &operator-=(const ArbitraryModInt &p) { if ((val += get_mod() - p.val) >= get_mod()) val -= get_mod(); return *this; } ArbitraryModInt &operator*=(const ArbitraryModInt &p) { long long a = (long long)val * p.val; int xh = (int)(a >> 32), xl = (int)a, d, m; asm("divl %4; \n\t" : "=a"(d), "=d"(m) : "d"(xh), "a"(xl), "r"(get_mod())); val = m; return *this; } ArbitraryModInt &operator/=(const ArbitraryModInt &p) { *this *= p.inverse(); return *this; } ArbitraryModInt operator-() const { return ArbitraryModInt(get_mod() - val); } ArbitraryModInt operator+(const ArbitraryModInt &p) const { return ArbitraryModInt(*this) += p; } ArbitraryModInt operator-(const ArbitraryModInt &p) const { return ArbitraryModInt(*this) -= p; } ArbitraryModInt operator*(const ArbitraryModInt &p) const { return ArbitraryModInt(*this) *= p; } ArbitraryModInt operator/(const ArbitraryModInt &p) const { return ArbitraryModInt(*this) /= p; } bool operator==(const ArbitraryModInt &p) const { return val == p.val; } bool operator!=(const ArbitraryModInt &p) const { return val != p.val; } ArbitraryModInt inverse() const { int a = val, b = get_mod(), u = 1, v = 0, t; while (b > 0) { t = a / b; swap(a -= t * b, b), swap(u -= t * v, v); } return ArbitraryModInt(u); } ArbitraryModInt pow(int64_t n) const { ArbitraryModInt ret(1), mul(val); while (n > 0) { if (n & 1) ret *= mul; mul *= mul; n >>= 1; } return ret; } void write() { fastio::printer.write(val); } void read() { fastio::scanner.read(val); } }; template <typename mint> mint inv(int n) { static const int mod = mint::get_mod(); static vector<mint> dat = {0, 1}; assert(0 <= n); if (n >= mod) n %= mod; while (int(dat.size()) <= n) { int k = dat.size(); auto q = (mod + k - 1) / k; int r = k * q - mod; dat.emplace_back(dat[r] * mint(q)); } return dat[n]; } template <typename mint> mint fact(int n) { static const int mod = mint::get_mod(); static vector<mint> dat = {1, 1}; assert(0 <= n); if (n >= mod) return 0; while (int(dat.size()) <= n) { int k = dat.size(); dat.emplace_back(dat[k - 1] * mint(k)); } return dat[n]; } template <typename mint> mint fact_inv(int n) { static const int mod = mint::get_mod(); static vector<mint> dat = {1, 1}; assert(-1 <= n && n < mod); if (n == -1) return mint(0); while (int(dat.size()) <= n) { int k = dat.size(); dat.emplace_back(dat[k - 1] * inv<mint>(k)); } return dat[n]; } template <class mint, class... Ts> mint fact_invs(Ts... xs) { return (mint(1) * ... * fact_inv<mint>(xs)); } template <typename mint, class Head, class... Tail> mint multinomial(Head &&head, Tail &&... tail) { return fact<mint>(head) * fact_invs<mint>(std::forward<Tail>(tail)...); } template <typename mint> mint C_dense(int n, int k) { static vvc<mint> C; static int H = 0, W = 0; auto calc = [&](int i, int j) -> mint { if (i == 0) return (j == 0 ? mint(1) : mint(0)); return C[i - 1][j] + (j ? C[i - 1][j - 1] : 0); }; if (W <= k) { FOR(i, H) { C[i].resize(k + 1); FOR(j, W, k + 1) { C[i][j] = calc(i, j); } } W = k + 1; } if (H <= n) { C.resize(n + 1); FOR(i, H, n + 1) { C[i].resize(W); FOR(j, W) { C[i][j] = calc(i, j); } } H = n + 1; } return C[n][k]; } template <typename mint, bool large = false, bool dense = false> mint C(ll n, ll k) { assert(n >= 0); if (k < 0 || n < k) return 0; if (dense) return C_dense<mint>(n, k); if (!large) return fact<mint>(n) * fact_inv<mint>(k) * fact_inv<mint>(n - k); k = min(k, n - k); mint x(1); FOR(i, k) { x *= mint(n - i); } x *= fact_inv<mint>(k); return x; } template <typename mint, bool large = false> mint C_inv(ll n, ll k) { assert(n >= 0); assert(0 <= k && k <= n); if (!large) return fact_inv<mint>(n) * fact<mint>(k) * fact<mint>(n - k); return mint(1) / C<mint, 1>(n, k); } // [x^d] (1-x) ^ {-n} の計算 template <typename mint, bool large = false, bool dense = false> mint C_negative(ll n, ll d) { assert(n >= 0); if (d < 0) return mint(0); if (n == 0) { return (d == 0 ? mint(1) : mint(0)); } return C<mint, large, dense>(n + d - 1, d); } using modint107 = modint<1000000007>; using modint998 = modint<998244353>; using amint = ArbitraryModInt; #line 6 "main.cpp" using mint = modint998; struct Mono { using value_type = tuple<mint, mint, mint>; using X = value_type; static X op(X x, X y) { auto& [x0, x1, x2] = x; auto& [y0, y1, y2] = y; return {x0 + y0, x1 + y1, x2 + y2}; } static constexpr X unit() { return {mint(0), mint(0), mint(0)}; } static constexpr bool commute = true; }; void solve() { LL(N); VEC(pi, XY, N); ll LIM = 1 << 30; Dynamic_SegTree<Mono, false, 8000000> seg(-LIM, LIM); using np = decltype(seg)::np; mint ANS = 0; FOR(4) { for (auto&& [x, y]: XY) tie(x, y) = mp(-y, x); seg.reset(); np root = seg.new_node(-LIM, LIM); sort(all(XY)); for (auto&& [x, y]: XY) { mint x2 = (x + y) * (x + y); mint x1 = x + y; mint x0 = 1; auto [s0, s1, s2] = seg.prod(root, -LIM, y); ANS += x2 * s0 - mint(2) * x1 * s1 + x0 * s2; seg.multiply(root, y, {x0, x1, x2}); } } ANS /= mint(2); print(ANS); } signed main() { cin.tie(nullptr); ios::sync_with_stdio(false); cout << setprecision(15); ll T = 1; // LL(T); FOR(T) solve(); return 0; }