Submission #453706

#	Submission time	Handle	Problem	Language	Result	Execution time	Memory
453706	2021-08-04T15:48:29 Z	blue	Constellation 3 (JOI20_constellation3)	C++17	35 / 100	1500 ms	137224 KB

constellation3

#include <iostream>
#include <vector>
#include <algorithm>
#include <set>
using namespace std;

const int maxN = 200'000;
const int maxM = 200'000;
const int lgM = 18;
const int INF = 1'000'000'000;

int N;
vector<int> A(1+maxN+1);
vector<int> star_list[1+maxN];

int M;
vector<int> X(1+maxM);
vector<int> Y(1+maxM);
vector<long long> C(1+maxM);

long long total_cost = 0;


struct segtree
{
    int l;
    int r;
    int mx;

    segtree* left = NULL;
    segtree* right = NULL;

    segtree()
    {
        ;
    }

    segtree(int L, int R)
    {
        l = L;
        r = R;
        if(l == r)
        {
            mx = A[l];
        }
        else
        {
            int m = (l+r)/2;
            left = new segtree(l, m);
            right = new segtree(m+1, r);
            mx = max(left->mx, right->mx);
        }
    }

    int rangemax(int L, int R)
    {
        if(R < l || r < L) return -INF;
        else if(L <= l && r <= R) return mx;
        else return max(left->rangemax(L, R), right->rangemax(L, R));
    }
};


vector<int> left_high(1+maxM);
vector<int> right_high(1+maxM);


struct rectangle
{
    int L; //[L, R] x [H, N]
    int R;
    int H;
    int I;
};

bool operator < (rectangle A, rectangle B)
{
    if(A.L != B.L)
        return A.L < B.L;
    else if(A.R != B.R)
        return A.R > B.R;
    else if(A.H != B.H)
        return A.H > B.H;
    else
        return A.I < B.I;
}

vector<rectangle> rect(1+maxM);
vector<int> star_bottom(1+maxM);

vector<int> openings[1+maxN];
vector<int> closings[1+maxN];



int anc[1+maxM][lgM];
vector<int> desc[1+maxM][lgM];
vector<int> depth(1+maxM, 0);

long long anc_dp_sum[1+maxM][lgM]; //exclusive
vector<long long> dp(1+maxM, 0LL);
vector<long long> child_dp_sum(1+maxM, 0LL);


bool dbg_flag = 0;




void dfs1(int u)
{
    for(int v: desc[u][0])
    {
        depth[v] = depth[u] + 1;
        dfs1(v);
    }
}

int getAnc(int u, int d)
{
    for(int e = 0; e < lgM; e++)
    {
        if(d & (1 << e))
            u = anc[u][e];
    }
    return u;
}

long long chain_sum(int u, int d)
{
    int u1 = u;
    long long ans = 0;
    for(int e = 0; e < lgM; e++)
    {
        if(d & (1 << e))
        {
            // if(dbg_flag)
            // {
            //     cerr << "jumping from " << u << " to " << anc[u][e] << ", adding " << anc_dp_sum[u][e] << " to answer\n";
            // }
            ans += anc_dp_sum[u][e];
            u = anc[u][e];
        }
    }
    // cerr << "chain sum " << u1 << ' ' << d << " " << ans << '\n';
    return ans;
}




void binary_lift(int u, int e)
{
    // cerr << "binary lift " << u << ' ' << e << '\n';
    anc_dp_sum[u][e] = anc_dp_sum[u][e-1] + anc_dp_sum[ anc[u][e-1] ][e-1];
    // cerr << "anc dp sum " << u << ' ' << e << " = " << anc_dp_sum[u][e] << '\n';

    for(int v: desc[u][e])
        binary_lift(v, e+1);
}

void dfs2(int u)
{
    // cerr << "\n\n\n\n";
    // cerr << "entered dfs2 " << u << "\n";
    for(int v: desc[u][0])
    {
        // cerr << u << " -> " << v << '\n';
        dfs2(v);
        child_dp_sum[u] += dp[v];
    }

    for(int v: desc[u][0])
    {
        anc_dp_sum[v][0] = child_dp_sum[u] - dp[v];
        // cerr << "anc dp sum " << v << ' ' << 0 << " = " << anc_dp_sum[v][0] << '\n';
        for(int v2: desc[v][0])
            binary_lift(v2, 1);
    }
    if(star_bottom[u] == u)
    {
        dp[u] = child_dp_sum[u] + C[u];
        // cerr << "!!! ";
        // cerr << "dp[" << u << "] = " << dp[u] << '\n';
    }
    else
    {
        // cerr << "case 2\n";
        int sb = star_bottom[u];
                dbg_flag = 1;
        long long new_dp = child_dp_sum[sb] + chain_sum(sb, depth[sb] - depth[u]) + C[u];
        // new_dp += child_dp_sum[u] - dp[ getAnc(sb, depth[sb] - depth[u] - 1) ];

        dbg_flag = 0;



        // cerr << sb << ' ' << child_dp_sum[sb] << ' ' << chain_sum(sb, depth[sb] - depth[u]) << ' ' << C[u] << '\n';
        // cerr << child_dp_sum[u] << '\n';
        // cerr << new_dp << '\n';

        dp[u] = max(child_dp_sum[u],   new_dp);

// cerr << "!!! ";
        // cerr << "dp[" << u << "] = " << dp[u] << '\n';
    }
    // cerr << "exited dfs2 " << u << "\n";
    // cerr << "\n\n\n\n";
}







int main()
{
    cin >> N;
    A[0] = N+1;
    for(int i = 1; i <= N; i++) cin >> A[i];
    A[N+1] = N+1;

    cin >> M;
    for(int j = 1; j <= M; j++)
    {
        cin >> X[j] >> Y[j] >> C[j];
        star_list[ X[j] ].push_back(j);
        total_cost += C[j];
    }
    // cerr << "total cost = " << total_cost << '\n';

    segtree S(0, N+1);

    // cerr << "check\n";
    // cerr << "\n\n\n";


    for(int j = 1; j <= M; j++)
    {
        // cerr << "j = " << j << '\n';
        int lo, hi, mid;
        //closest building on left
        lo = 0;
        hi = X[j]-1;
        while(lo != hi)
        {
            mid = (lo+hi)/2+1;
            if(S.rangemax(mid, hi) >= Y[j])
                lo = mid;
            else
                hi = mid-1;
        }
        left_high[j] = lo;

        // cerr << "part 1 done\n";


        //closest building on right
        lo = X[j]+1;
        hi = N+1;
        while(lo != hi)
        {
            // cerr << lo << ' ' << hi << '\n';
            mid = (lo+hi)/2;
            if(S.rangemax(lo, mid) >= Y[j])
                hi = mid;
            else
                lo = mid+1;
        }
        right_high[j] = lo;

        // cerr << j << ' ' << left_high[j] << ' ' << right_high[j] << '\n';

        rect[j] = rectangle{left_high[j] + 1, right_high[j] - 1, Y[j], j};
        openings[rect[j].L].push_back(j);
        closings[rect[j].R].push_back(j);
    }
    // cerr << "\n\n\n\n";


    for(int i = 1; i <= N; i++)
    {
        // cerr << "i = " << i << '\n';
        sort(openings[i].begin(), openings[i].end(), [] (int o1, int o2)
        {
            return rect[o1] < rect[o2];
        });

        // for(int o: openings[i]) cerr << o << ' ';
        // cerr << '\n';

        sort(closings[i].begin(), closings[i].end(), [] (int c1, int c2)
        {
            return rect[c2] < rect[c1]; //  REVERSED!!!!!!
        });

        // for(int c: closings[i]) cerr << c << ' ';
        // cerr << '\n';
    }

    vector<int> ST(1, 0);
    anc[0][0] = 0;
    for(int i = 1; i <= N; i++)
    {
        // cerr << "i = " << i << '\n';
        for(int o: openings[i])
        {
            // cerr << "   o = " << o << '\n';
            // cerr << "parent " << o << " = " << ST.back() << '\n';
            anc[o][0] = ST.back();
            desc[ anc[o][0] ][0].push_back(o);
            ST.push_back(o);
        }

        for(int j: star_list[i])
        {
            star_bottom[j] = ST.back();
            // cerr << "star bottom of " << j << " = " << star_bottom[j] << '\n';
        }

        for(int c: closings[i])
        {
            ST.pop_back();
            // cerr << "   c = " << c << '\n';
        }
    }

    for(int e = 1; e < lgM; e++)
        for(int j = 0; j <= M; j++)
        {
            anc[j][e] = anc[ anc[j][e-1] ][e-1];
            desc[ anc[j][e] ][e].push_back(j);
        }

    for(int j = 1; j <= M; j++)
        if(anc[j][0] == 0)
        {
            depth[j] = 1;
            dfs1(j);
        }

    long long max_kept = 0;


    for(int j = 1; j <= M; j++)
    {
        // cerr << "anc " << j << " = " << anc[j][0] << '\n';
        if(anc[j][0] == 0)
        {
            // cerr << "calling " << j << '\n';
            dfs2(j);
            max_kept += dp[j];
        }
    }

    cout << total_cost - max_kept << '\n';
}

Compilation message

constellation3.cpp: In function 'long long int chain_sum(int, int)':
constellation3.cpp:131:9: warning: unused variable 'u1' [-Wunused-variable]
  131 |     int u1 = u;
      |         ^~
constellation3.cpp: In function 'int main()':
constellation3.cpp:322:17: warning: unused variable 'c' [-Wunused-variable]
  322 |         for(int c: closings[i])
      |                 ^

Subtask #1

14.0 / 14.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	60 ms	112328 KB	Output is correct
2	Correct	60 ms	112384 KB	Output is correct
3	Correct	60 ms	112300 KB	Output is correct
4	Correct	64 ms	112324 KB	Output is correct
5	Correct	59 ms	112400 KB	Output is correct
6	Correct	61 ms	112372 KB	Output is correct
7	Correct	61 ms	112320 KB	Output is correct
8	Correct	67 ms	112352 KB	Output is correct
9	Correct	59 ms	112388 KB	Output is correct
10	Correct	61 ms	112420 KB	Output is correct
11	Correct	62 ms	112356 KB	Output is correct
12	Correct	61 ms	112444 KB	Output is correct
13	Correct	60 ms	112384 KB	Output is correct
14	Correct	62 ms	112424 KB	Output is correct
15	Correct	61 ms	112344 KB	Output is correct
16	Correct	62 ms	112452 KB	Output is correct
17	Correct	62 ms	112324 KB	Output is correct
18	Correct	61 ms	112428 KB	Output is correct
19	Correct	61 ms	112360 KB	Output is correct
20	Correct	67 ms	112444 KB	Output is correct
21	Correct	62 ms	112452 KB	Output is correct
22	Correct	57 ms	112340 KB	Output is correct

Subtask #2

21.0 / 21.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	60 ms	112328 KB	Output is correct
2	Correct	60 ms	112384 KB	Output is correct
3	Correct	60 ms	112300 KB	Output is correct
4	Correct	64 ms	112324 KB	Output is correct
5	Correct	59 ms	112400 KB	Output is correct
6	Correct	61 ms	112372 KB	Output is correct
7	Correct	61 ms	112320 KB	Output is correct
8	Correct	67 ms	112352 KB	Output is correct
9	Correct	59 ms	112388 KB	Output is correct
10	Correct	61 ms	112420 KB	Output is correct
11	Correct	62 ms	112356 KB	Output is correct
12	Correct	61 ms	112444 KB	Output is correct
13	Correct	60 ms	112384 KB	Output is correct
14	Correct	62 ms	112424 KB	Output is correct
15	Correct	61 ms	112344 KB	Output is correct
16	Correct	62 ms	112452 KB	Output is correct
17	Correct	62 ms	112324 KB	Output is correct
18	Correct	61 ms	112428 KB	Output is correct
19	Correct	61 ms	112360 KB	Output is correct
20	Correct	67 ms	112444 KB	Output is correct
21	Correct	62 ms	112452 KB	Output is correct
22	Correct	57 ms	112340 KB	Output is correct
23	Correct	70 ms	113200 KB	Output is correct
24	Correct	72 ms	113220 KB	Output is correct
25	Correct	71 ms	113212 KB	Output is correct
26	Correct	74 ms	113152 KB	Output is correct
27	Correct	72 ms	113220 KB	Output is correct
28	Correct	71 ms	113216 KB	Output is correct
29	Correct	70 ms	113092 KB	Output is correct
30	Correct	72 ms	113244 KB	Output is correct
31	Correct	81 ms	113140 KB	Output is correct
32	Correct	74 ms	113684 KB	Output is correct
33	Correct	73 ms	113748 KB	Output is correct
34	Correct	75 ms	113704 KB	Output is correct
35	Correct	74 ms	113732 KB	Output is correct
36	Correct	73 ms	113732 KB	Output is correct
37	Correct	73 ms	113676 KB	Output is correct
38	Correct	69 ms	113752 KB	Output is correct
39	Correct	72 ms	113400 KB	Output is correct
40	Correct	72 ms	113740 KB	Output is correct
41	Correct	71 ms	113352 KB	Output is correct
42	Correct	73 ms	113400 KB	Output is correct
43	Correct	80 ms	113724 KB	Output is correct
44	Correct	71 ms	113380 KB	Output is correct

Subtask #3

0 / 65.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	60 ms	112328 KB	Output is correct
2	Correct	60 ms	112384 KB	Output is correct
3	Correct	60 ms	112300 KB	Output is correct
4	Correct	64 ms	112324 KB	Output is correct
5	Correct	59 ms	112400 KB	Output is correct
6	Correct	61 ms	112372 KB	Output is correct
7	Correct	61 ms	112320 KB	Output is correct
8	Correct	67 ms	112352 KB	Output is correct
9	Correct	59 ms	112388 KB	Output is correct
10	Correct	61 ms	112420 KB	Output is correct
11	Correct	62 ms	112356 KB	Output is correct
12	Correct	61 ms	112444 KB	Output is correct
13	Correct	60 ms	112384 KB	Output is correct
14	Correct	62 ms	112424 KB	Output is correct
15	Correct	61 ms	112344 KB	Output is correct
16	Correct	62 ms	112452 KB	Output is correct
17	Correct	62 ms	112324 KB	Output is correct
18	Correct	61 ms	112428 KB	Output is correct
19	Correct	61 ms	112360 KB	Output is correct
20	Correct	67 ms	112444 KB	Output is correct
21	Correct	62 ms	112452 KB	Output is correct
22	Correct	57 ms	112340 KB	Output is correct
23	Correct	70 ms	113200 KB	Output is correct
24	Correct	72 ms	113220 KB	Output is correct
25	Correct	71 ms	113212 KB	Output is correct
26	Correct	74 ms	113152 KB	Output is correct
27	Correct	72 ms	113220 KB	Output is correct
28	Correct	71 ms	113216 KB	Output is correct
29	Correct	70 ms	113092 KB	Output is correct
30	Correct	72 ms	113244 KB	Output is correct
31	Correct	81 ms	113140 KB	Output is correct
32	Correct	74 ms	113684 KB	Output is correct
33	Correct	73 ms	113748 KB	Output is correct
34	Correct	75 ms	113704 KB	Output is correct
35	Correct	74 ms	113732 KB	Output is correct
36	Correct	73 ms	113732 KB	Output is correct
37	Correct	73 ms	113676 KB	Output is correct
38	Correct	69 ms	113752 KB	Output is correct
39	Correct	72 ms	113400 KB	Output is correct
40	Correct	72 ms	113740 KB	Output is correct
41	Correct	71 ms	113352 KB	Output is correct
42	Correct	73 ms	113400 KB	Output is correct
43	Correct	80 ms	113724 KB	Output is correct
44	Correct	71 ms	113380 KB	Output is correct
45	Execution timed out	1599 ms	137224 KB	Time limit exceeded
46	Halted	0 ms	0 KB	-