Submission #995513

#TimeUsernameProblemLanguageResultExecution timeMemory
995513ForestedMeetings (IOI18_meetings)C++17
41 / 100
1142 ms33108 KiB
#include <bits/stdc++.h> using namespace std; using i32 = int; using i64 = long long; template <typename T> using V = vector<T>; template <typename T> using VV = V<V<T>>; #define OVERRIDE4(a, b, c, d, ...) d #define REP2(i, n) for (i32 i = 0; i < (i32)(n); ++i) #define REP3(i, l, r) for (i32 i = (i32)(l); i < (i32)(r); ++i) #define PER2(i, n) for (i32 i = (i32)(n) - 1; i >= 0; --i) #define PER3(i, l, r) for (i32 i = (i32)(r) - 1; i >= (i32)(l); --i) #define REP(...) OVERRIDE4(__VA_ARGS__, REP3, REP2)(__VA_ARGS__) #define PER(...) OVERRIDE4(__VA_ARGS__, PER3, PER2)(__VA_ARGS__) #define LEN(x) (i32)size(x) #define ALL(x) begin(x), end(x) template <typename T> bool chmin(T &x, const T &y) { if (x > y) { x = y; return true; } return false; } template <typename T> bool chmax(T &x, const T &y) { if (x < y) { x = y; return true; } return false; } #include "meetings.h" constexpr i32 INF = 1001001001; constexpr i64 INF64 = 3003003003003003003; i64 solve_naive(V<i32> h) { i32 n = LEN(h); V<i64> cost(n, 0); V<pair<i64, i32>> stc; stc.emplace_back(INF, -1); i64 cur = 0; REP(i, n) { while (stc.back().first <= h[i]) { i64 v; i32 j; tie(v, j) = stc.back(); stc.pop_back(); cur -= v * (j - stc.back().second); } cur += (i64)h[i] * (i - stc.back().second); stc.emplace_back(h[i], i); cost[i] += cur; } stc.clear(); stc.emplace_back(INF, n); cur = 0; PER(i, n) { while (stc.back().first <= h[i]) { i64 v; i32 j; tie(v, j) = stc.back(); stc.pop_back(); cur -= v * (stc.back().second - j); } cur += (i64)h[i] * (stc.back().second - i); stc.emplace_back(h[i], i); cost[i] += cur; } REP(i, n) { cost[i] -= h[i]; } i64 mn = INF64; REP(i, n) { chmin(mn, cost[i]); } return mn; } struct Segment { i32 len; i64 lmax, rmax, cost; Segment() : len(0), lmax(0), rmax(0), cost(0) {} Segment(i64 x) : len(1), lmax(x), rmax(x), cost(x) {} }; struct Data { V<Segment> segs; }; void compress(V<Segment> &segs) { V<Segment> ret; for (const Segment &seg : segs) { if (!ret.empty() && ret.back().lmax == seg.lmax && ret.back().rmax == seg.rmax) { ret.back().len += seg.len; chmin(ret.back().cost, seg.cost); } else { ret.push_back(seg); } } segs = ret; } Data id() { return Data{V<Segment>(0)}; } Data op(Data x, Data y) { if (x.segs.empty()) { return y; } if (y.segs.empty()) { return x; } V<pair<i64, i32>> ll; i64 sum = 0; REP(i, LEN(x.segs)) { Segment seg = x.segs[i]; sum += seg.rmax * seg.len; ll.emplace_back(seg.rmax, seg.len); } i32 pct = 0; REP(i, LEN(y.segs)) { Segment &seg = y.segs[i]; while (!ll.empty() && ll.back().first <= seg.lmax) { sum -= ll.back().first * ll.back().second; pct += ll.back().second; ll.pop_back(); } seg.cost += pct * seg.lmax + sum; } ll.clear(); sum = 0; PER(i, LEN(y.segs)) { Segment seg = y.segs[i]; sum += seg.lmax * seg.len; ll.emplace_back(seg.lmax, seg.len); } pct = 0; PER(i, LEN(x.segs)) { Segment &seg = x.segs[i]; while (!ll.empty() && ll.back().first <= seg.rmax) { sum -= ll.back().first * ll.back().second; pct += ll.back().second; ll.pop_back(); } seg.cost += pct * seg.rmax + sum; } i64 rmax = y.segs[0].rmax; PER(i, LEN(x.segs)) { chmax(rmax, x.segs[i].rmax); x.segs[i].rmax = rmax; } i64 lmax = x.segs.back().lmax; REP(i, LEN(y.segs)) { chmax(lmax, y.segs[i].lmax); y.segs[i].lmax = lmax; } REP(i, LEN(y.segs)) { x.segs.push_back(y.segs[i]); } compress(x.segs); return x; } i32 ceil_pow2(i32 n) { i32 k = 1; while (k < n) { k *= 2; } return k; } class Segtree { i32 n; V<Data> dat; public: Segtree(i32 _n) : n(ceil_pow2(_n)), dat(2 * n, id()) {} void update(i32 idx, Data d) { idx += n; dat[idx] = d; idx /= 2; while (idx > 0) { dat[idx] = op(dat[2 * idx], dat[2 * idx + 1]); idx /= 2; } } Data prod(i32 l, i32 r) const { l += n; r += n; Data lp = id(), rp = id(); while (l < r) { if (l & 1) { lp = op(lp, dat[l++]); } if (r & 1) { rp = op(dat[--r], rp); } l /= 2; r /= 2; } return op(lp, rp); } }; V<i64> minimum_costs(V<i32> _h, V<i32> l, V<i32> r) { i32 n = LEN(_h); i32 q = LEN(l); V<i64> h(n); REP(i, n) { h[i] = _h[i]; } REP(i, q) { ++r[i]; } assert(*max_element(ALL(h)) <= 20); Segtree seg(n); REP(i, n) { Segment tmp(h[i]); seg.update(i, Data{V<Segment>({tmp})}); } V<i64> pct(q); REP(i, q) { Data ret = seg.prod(l[i], r[i]); i64 ans = INF64; for (const Segment &seg : ret.segs) { chmin(ans, seg.cost); } pct[i] = ans; } return pct; }
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