Submission #575780

#TimeUsernameProblemLanguageResultExecution timeMemory
5757802fat2codeHoliday (IOI14_holiday)C++17
7 / 100
1460 ms15108 KiB
#include"holiday.h" #include <bits/stdc++.h> #define fr first #pragma GCC optimize("O3") #pragma GCC optimize("Ofast") #define sc second #define all(s) s.begin(), s.end() #define rc(s) return cout << s, 0 using namespace std; const int nmax = 100005; const int dmax = 300005; long long n, nn, start, d, curr, dp[4][dmax]; vector<long long>compress; pair<long long, long long>tree[4 * nmax]; void update(int l, int r, int pos, pair<long long, long long>val, int nod){ if(l == r){ if(val.sc == 1LL) tree[nod].fr += val.fr; else tree[nod].fr -= val.fr; tree[nod].sc += val.sc; } else{ int mid = l + (r - l) / 2; if(pos <= mid) update(l, mid, pos, val, 2*nod); else update(mid+1, r, pos, val, 2*nod + 1); tree[nod].fr = (tree[2*nod].fr + tree[2*nod+1].fr); tree[nod].sc = (tree[2*nod].sc + tree[2*nod+1].sc); } } long long query(int l, int r, int nrelemente, int nod){ if(l == r){ if(nrelemente >= 1LL) return tree[nod].fr; else return 0LL; } else{ int mid = l + (r - l) / 2; if(tree[2*nod + 1].sc >= nrelemente){ return query(mid + 1, r, nrelemente, 2*nod + 1); } else{ return tree[2*nod + 1].fr + query(l, mid, nrelemente - tree[2*nod+1].sc, 2*nod); } } } void O_o(int l_time, int r_time, int l_interval, int r_interval, long long penalty, vector<long long>&arr, int indx){ if(r_time < l_time) return; if(r_interval < l_interval) return; else{ int mid = l_time + (r_time - l_time) / 2; long long maxi = 0, position = l_interval; for(int i=l_interval;i<=r_interval;i++){ auto it = lower_bound(all(compress), arr[i]) - compress.begin(); update(1, nn, it + 1, {compress[it], 1}, 1); long long curr = mid - i * penalty; if(curr >= 0){ long long lmao = query(1, nn, curr, 1); if(maxi < lmao){ maxi = lmao; position = i; } } } dp[indx][mid] = maxi; for(int i=r_interval;i>=position;i--){ auto it = lower_bound(all(compress), arr[i]) - compress.begin(); update(1, nn, it + 1, {compress[it], -1}, 1); } O_o(mid + 1, r_time, position, r_interval, penalty, arr, indx); for(int i=position-1;i>=l_interval;i--){ auto it = lower_bound(all(compress), arr[i]) - compress.begin(); update(1, nn, it + 1, {compress[it], -1}, 1); } O_o(l_time, mid - 1, l_interval, position, penalty, arr, indx); } } long long findMaxAttraction(int n, int start, int d, int a[]) { vector<long long>attraction; for(int i=0;i<n;i++) attraction.push_back(a[i]); for(auto it : attraction){ compress.push_back(it); } compress.push_back(0); sort(all(compress)); compress.resize(unique(all(compress)) - compress.begin()); nn = (int)compress.size(); vector<long long>lmao; for(int i=start;i<n;i++) lmao.push_back(attraction[i]); O_o(0, d, 0, lmao.size() - 1, 1, lmao, 0); lmao[0] = 0; O_o(0, d, 0, lmao.size() - 1, 2, lmao, 1); lmao.clear(); for(int i=start;i>=0;i--) lmao.push_back(attraction[i]); O_o(0, d, 0, lmao.size() - 1, 1, lmao, 2); lmao[0] = 0; O_o(0, d, 0, lmao.size() - 1, 2, lmao, 3); long long ans = 0; for(int i=0;i<=d;i++){ ans = max(ans, dp[0][i] + dp[3][(d - i) - (d - i) % 2]); ans = max(ans, dp[2][i] + dp[1][(d - i) - (d - i) % 2]); } return ans; } // 1. Solve the problem // 2. ??? // 3. Profit!
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