Submission #2423191

Source Code Expand

#include <bits/stdc++.h>
using namespace std;

#define INF_LL (int64)1e18
#define INF (int32)1e9
#define REP(i, n) for(int i = 0;i < (n);i++)
#define FOR(i, a, b) for(int i = (a);i < (b);i++)
#define all(x) x.begin(),x.end()
#define fs first
#define sc second

using int32 = int_fast32_t;
using uint32 = uint_fast32_t;
using int64 = int_fast64_t;
using uint64 = uint_fast64_t;
using PII = pair<int32, int32>;
using PLL = pair<int64, int64>;

const double eps = 1e-6;

template<typename A, typename B>inline void chmin(A &a, B b){if(a > b) a = b;}
template<typename A, typename B>inline void chmax(A &a, B b){if(a < b) a = b;}

const int64 mod = 1e9+7;

/*
int main(void){
	int32 N;
	cin >> N;
	vector<int64> v(N);
	REP(i, N) cin >> v[i];

	int64 maxi = 0;
	int64 res = 0;
	REP(i, N){
		int64 cnt = (v[i]-1)/(maxi+1);
		if(cnt){ res += cnt; chmax(maxi, 1); }
		else maxi = v[i];
	}
	cout << res << endl;
}
*/

class RMQ{
private:
	int32 n;
	vector<int64> node, lazy;
	vector<bool> lazyFlag;
public:
	RMQ(vector<int64> v){
		int sz = v.size();
		n = 1; while(n < sz) n *= 2;
		node.resize(2*n-1, -INF_LL);
		lazy.resize(2*n-1, 0);
		lazyFlag.resize(2*n-1, false);
		for(int32 i = 0;i < sz;i++) node[i+n-1] = v[i];
		for(int32 i = n-2;i >= 0;i--) node[i] = max(node[2*i+1], node[2*i+2]);
	}

	void eval(int32 k, int32 l, int32 r){
		if(lazyFlag[k]){
			node[k] = lazy[k];
			if(r-l > 1){
				lazy[2*k+1] = lazy[k];
				lazy[2*k+2] = lazy[k];
				lazyFlag[2*k+1] = lazyFlag[2*k+2] = true;
			}
			lazy[k] = 0;
			lazyFlag[k] = false;
		}
	}

	void update(int32 k, int64 x){
		k += n-1;
		if(node[k] > x) return;
		node[k] = x;
		while(k){
			k = (k-1)/2;
			node[k] = max(node[k*2+1], node[k*2+2]);
		}
	}

	int64 query(int32 a, int32 b, int32 k=0, int32 l=0, int32 r=-1){
		if(r < 0) r = n;
//		eval(k, l, r);

		if(b <= l || r <= a) return -INF_LL;
		if(a <= l && r <= b) return node[k];

		return max(query(a, b, k*2+1, l, (l+r)/2), query(a, b, k*2+2, (l+r)/2, r));
	}
};

int main(void){
	int32 M, N, K;
	cin >> N >> M >> K;
	vector<int64> A(N);
	priority_queue<PLL, vector<PLL>> pq[301];
	REP(i, N) cin >> A[i];

	REP(i, N){
		for(int32 j = K-1;j >= 1;j--){
			while(pq[j-1].size() && i-pq[j-1].top().sc > M) pq[j-1].pop();
			if(pq[j-1].empty()) continue;
			pq[j].push(PLL(pq[j-1].top().fs+A[i]*(j+1), i));
		}
		pq[0].push(PLL(A[i], i));
	}

	cout << pq[K-1].top().fs << endl;
}

Submission Info

Submission Time
Task A - Struck Out
User maze1230
Language C++14 (GCC 5.4.1)
Score 500
Code Size 2492 Byte
Status TLE
Exec Time 2130 ms
Memory 319316 KB

Judge Result

Set Name Sample subtask1 subtask2 subtask3 All
Score / Max Score 0 / 0 0 / 100 200 / 200 300 / 300 0 / 100
Status
AC × 3
AC × 8
TLE × 2
AC × 12
AC × 21
AC × 35
TLE × 11
Set Name Test Cases
Sample sample_1.txt, sample_2.txt, sample_3.txt
subtask1 sample_2.txt, subtask_1_1.txt, subtask_1_2.txt, subtask_1_3.txt, subtask_1_4.txt, subtask_1_5.txt, subtask_1_6.txt, subtask_1_7.txt, subtask_1_8.txt, subtask_1_9.txt
subtask2 sample_1.txt, sample_2.txt, sample_3.txt, subtask_2_1.txt, subtask_2_2.txt, subtask_2_3.txt, subtask_2_4.txt, subtask_2_5.txt, subtask_2_6.txt, subtask_2_7.txt, subtask_2_8.txt, subtask_2_9.txt
subtask3 sample_1.txt, sample_2.txt, sample_3.txt, subtask_2_1.txt, subtask_2_2.txt, subtask_2_3.txt, subtask_2_4.txt, subtask_2_5.txt, subtask_2_6.txt, subtask_2_7.txt, subtask_2_8.txt, subtask_2_9.txt, subtask_3_1.txt, subtask_3_2.txt, subtask_3_3.txt, subtask_3_4.txt, subtask_3_5.txt, subtask_3_6.txt, subtask_3_7.txt, subtask_3_8.txt, subtask_3_9.txt
All sample_1.txt, sample_2.txt, sample_3.txt, sample_1.txt, sample_2.txt, sample_3.txt, subtask_1_1.txt, subtask_1_2.txt, subtask_1_3.txt, subtask_1_4.txt, subtask_1_5.txt, subtask_1_6.txt, subtask_1_7.txt, subtask_1_8.txt, subtask_1_9.txt, subtask_2_1.txt, subtask_2_2.txt, subtask_2_3.txt, subtask_2_4.txt, subtask_2_5.txt, subtask_2_6.txt, subtask_2_7.txt, subtask_2_8.txt, subtask_2_9.txt, subtask_3_1.txt, subtask_3_2.txt, subtask_3_3.txt, subtask_3_4.txt, subtask_3_5.txt, subtask_3_6.txt, subtask_3_7.txt, subtask_3_8.txt, subtask_3_9.txt, subtask_4_1.txt, subtask_4_10.txt, subtask_4_11.txt, subtask_4_12.txt, subtask_4_13.txt, subtask_4_2.txt, subtask_4_3.txt, subtask_4_4.txt, subtask_4_5.txt, subtask_4_6.txt, subtask_4_7.txt, subtask_4_8.txt, subtask_4_9.txt
Case Name Status Exec Time Memory
sample_1.txt AC 1 ms 256 KB
sample_2.txt AC 1 ms 256 KB
sample_3.txt AC 1 ms 256 KB
subtask_1_1.txt AC 1 ms 384 KB
subtask_1_2.txt AC 272 ms 55052 KB
subtask_1_3.txt TLE 2128 ms 298292 KB
subtask_1_4.txt AC 8 ms 3712 KB
subtask_1_5.txt AC 55 ms 9244 KB
subtask_1_6.txt AC 2 ms 768 KB
subtask_1_7.txt AC 652 ms 157508 KB
subtask_1_8.txt TLE 2129 ms 307252 KB
subtask_1_9.txt AC 5 ms 2432 KB
subtask_2_1.txt AC 2 ms 512 KB
subtask_2_2.txt AC 1 ms 256 KB
subtask_2_3.txt AC 2 ms 384 KB
subtask_2_4.txt AC 1 ms 384 KB
subtask_2_5.txt AC 1 ms 256 KB
subtask_2_6.txt AC 1 ms 256 KB
subtask_2_7.txt AC 2 ms 512 KB
subtask_2_8.txt AC 2 ms 512 KB
subtask_2_9.txt AC 1 ms 384 KB
subtask_3_1.txt AC 146 ms 48060 KB
subtask_3_2.txt AC 148 ms 48060 KB
subtask_3_3.txt AC 146 ms 46536 KB
subtask_3_4.txt AC 121 ms 38460 KB
subtask_3_5.txt AC 8 ms 3712 KB
subtask_3_6.txt AC 101 ms 22896 KB
subtask_3_7.txt AC 147 ms 48060 KB
subtask_3_8.txt AC 14 ms 6044 KB
subtask_3_9.txt AC 187 ms 43508 KB
subtask_4_1.txt TLE 2130 ms 312624 KB
subtask_4_10.txt AC 1390 ms 3700 KB
subtask_4_11.txt TLE 2104 ms 24200 KB
subtask_4_12.txt TLE 2108 ms 56888 KB
subtask_4_13.txt TLE 2115 ms 152708 KB
subtask_4_2.txt TLE 2125 ms 263316 KB
subtask_4_3.txt TLE 2128 ms 319316 KB
subtask_4_4.txt TLE 2128 ms 304308 KB
subtask_4_5.txt TLE 2128 ms 309880 KB
subtask_4_6.txt AC 118 ms 37892 KB
subtask_4_7.txt AC 1488 ms 241944 KB
subtask_4_8.txt TLE 2129 ms 307380 KB
subtask_4_9.txt AC 1028 ms 208816 KB