Submission #787226

#TimeUsernameProblemLanguageResultExecution timeMemory
787226sadsaRice Hub (IOI11_ricehub)C++17
42 / 100
1081 ms27092 KiB
#include "ricehub.h" #include <bits/stdc++.h> using namespace std; using vi = vector<int>; using ii = pair<int, int>; using vii = vector<ii>; using i64 = long long; using vl = vector<i64>; using ll = pair<i64, i64>; using vll = vector<ll>; constexpr int iINF = numeric_limits<int>::max(); constexpr i64 lINF = numeric_limits<i64>::max(); #define RANGE(x) begin(x), end(x) template <typename... T> void DBG(T&&... args) { //((cerr << args << ' '), ...) << '\n'; } template <typename T> ostream &operator<<(ostream &out, const vector<T> &vec) { out << '{'; for (size_t i = 0; i < vec.size()-1; ++i) out << vec[i] << ", "; out << vec.back() << '}'; return out; } template <typename T1, typename T2> ostream &operator<<(ostream &out, const pair<T1, T2> &pr) { out << '(' << pr.first << ", " << pr.second << ')'; return out; } int besthub(int R, int L, int XCa[], long long B) { vi X(XCa, XCa + R); vi hub_count(L+2); for (auto Xi : X) { ++hub_count[Xi]; } vi lreward(L+2); vl lcost(L+2); for (int i = 1; i <= L; ++i) { lreward[i] = lreward[i-1] + hub_count[i]; lcost[i] = lcost[i-1] + lreward[i-1]; } vi rreward(L+2); vl rcost(L+2); for (int i = L; i >= 1; --i) { rreward[i] = rreward[i+1] + hub_count[i]; rcost[i] = rcost[i+1] + rreward[i+1]; } DBG(X); DBG(hub_count); DBG("left:"); DBG(lreward); DBG(lcost); DBG("right:"); DBG(rreward); DBG(rcost); auto lquery = [&] (int Xm, int Xl) { i64 dist = Xm-Xl; i64 maxcost = lcost[Xm] - lcost[Xl] - dist*lreward[Xl-1]; i64 mincost = hub_count[Xl]? (maxcost-(hub_count[Xl]-1)*dist): maxcost; return tuple{lreward[Xm]-lreward[Xl-1], mincost, maxcost}; }; auto rquery = [&] (int Xm, int Xr) { i64 dist = Xr-Xm; i64 maxcost = rcost[Xm] - rcost[Xr] - dist * rreward[Xr+1]; i64 mincost = hub_count[Xr]? (maxcost-(hub_count[Xr]-1)*dist): maxcost; return tuple{rreward[Xm]-rreward[Xr+1], mincost, maxcost}; }; auto range_query = [&] (int Xm, int Xl, int Xr) { auto [lr, lcmin, lcmax] = lquery(Xm, Xl); auto [rr, rcmin, rcmax] = rquery(Xm, Xr); i64 total_cost = lcmax + rcmax; if (Xl == 1 && Xr == 4 && Xm == 3) { DBG(lcmin, lcmax, rcmin, rcmax); DBG(total_cost); DBG(B); DBG("12312312321321321312321"); } if (total_cost <= B) { return pair{lr+rr-hub_count[Xm], total_cost}; } else if (lcmin + rcmin <= B) { int ldist = Xm-Xl; int rdist = Xr-Xm; i64 overcost = total_cost - B; int reward = lr+rr-hub_count[Xm]; DBG("overcost", overcost); if (ldist < rdist) { DBG("RIGHT FIRST"); if (rdist == 0) while (1) new i64[100000000]; int to_remove = (overcost+rdist-1) / rdist; if (hub_count[Xr] - to_remove < 1) { to_remove = hub_count[Xr]-1; } overcost -= to_remove * rdist; reward -= to_remove; if (overcost > 0) { if (ldist == 0) while (1) new i64[100000000]; to_remove = (overcost+ldist-1)/ldist; if (hub_count[Xl] - to_remove < 1) while (1) new i64[100000000]; overcost -= to_remove * ldist; reward -= to_remove; } } else { DBG("LEFT FIRST"); if (ldist == 0) while (1) new i64[100000000]; int to_remove = (overcost+ldist-1) / ldist; if (hub_count[Xl] - to_remove < 1) { to_remove = hub_count[Xl]-1; } DBG(to_remove); overcost -= to_remove * ldist; reward -= to_remove; DBG("overcost 2:", overcost); if (overcost > 0) { if (rdist == 0) while (1) new i64[100000000]; to_remove = (overcost+rdist-1)/rdist; if (hub_count[Xr] - to_remove < 1) while (1) new i64[100000000]; overcost -= to_remove * rdist; reward -= to_remove; } } if (overcost > 0) while (1) new i64[100000000]; // cant happen :) if (Xl == 1 && Xr == 4 && Xm == 3) { DBG("overcost result:", reward, B + overcost); } return pair{reward, B + overcost}; } else { return pair{int(), B+1}; } }; vi Xunique = X; Xunique.erase( unique( Xunique.begin(), Xunique.end() ), Xunique.end() ); int ans = 0; for (int i = 0; i < int(Xunique.size()); ++i) { int xl = Xunique[i]; if (lreward[X.back()]-lreward[xl-1] <= ans) break; for (int j = i; j < int(Xunique.size()); ++j) { int xr = Xunique[j]; if (lreward[xr]-lreward[xl-1] <= ans) continue; for (int k = i; k <= j; ++k) { int x = Xunique[k]; auto [reward, cost] = range_query(x, xl, xr); if (cost <= B) { if (reward > ans) { DBG("pos:", x, xl, xr); DBG("rice+cost:", reward, cost); ans = reward; } } } } } return ans; }
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