Submission #927728

#	Submission time	Handle	Problem	Language	Result	Execution time	Memory
927728	2024-02-15T09:29:48 Z	boris_mihov	Two Dishes (JOI19_dishes)	C++17	10 / 100	10000 ms	48672 KB

dishes

#include <algorithm>
#include <iostream>
#include <numeric>
#include <cassert>
#include <vector>

#define int long long
typedef long long llong;
const int MAXN = 200000 + 10;
const int MAXLOG = 20;
const llong INF = 1e18;

int n, m;
template <typename T>
struct Fenwick
{
    T tree[MAXN];
    void update(int pos, T val)
    {
        for (int idx = pos ; idx <= m ; idx += idx & (-idx))
        {
            tree[idx] += val;
        }
    }

    T query(int pos)
    {
        T res = 0;
        for (int idx = pos ; idx > 0 ; idx -= idx & (-idx))
        {
            res += tree[idx];
        }

        return res;
    }

    int findKthZero(int k)
    {
        int idx = 0;
        for (int log = MAXLOG - 1 ; log >= 0 ; --log)
        {
            if (idx + (1 << log) <= m && (1 << log) - tree[idx + (1 << log)] < k)
            {
                idx += (1 << log);
                k -= (1 << log) - tree[idx];
            }
        }

        return idx + 1;
    }

    int findKthOne(int k)
    {
        int idx = 0;
        for (int log = MAXLOG - 1 ; log >= 0 ; --log)
        {
            if (idx + (1 << log) <= m && tree[idx + (1 << log)] < k)
            {
                idx += (1 << log);
                k -= tree[idx];
            }
        }

        return idx + 1;
    }
};

Fenwick <int> fenwickNext;
Fenwick <llong> fenwickActive;

struct Dish
{
    int time;
    llong limit;
    int reward;
    int idx;
    bool type;
};

Dish a[MAXN];
Dish b[MAXN];
llong prefixA[MAXN];
llong prefixB[MAXN];
bool isNext[MAXN];
bool isActive[MAXN];
llong dpBorderM[MAXN];
llong dp[MAXN];

int globalRow;
llong findValue(int col)
{
    if (col == m + 1)
    {
        return dp[m + 1];
    }

    int cnt = col - 1 - fenwickNext.query(col - 1);
    int pos = m;
    
    if (cnt != m - fenwickNext.query(m))
    {
        // std::cout << "IN THE FUCKING IF: " << cnt << ' ' << m << ' ' << fenwickNext.query(m) << '\n';
        // std::cout << "next is\n";
        // for (int i = 1 ; i <= m ; ++i)
        // {
        //     std::cout << fenwickNext.query(i) - fenwickNext.query(i - 1);
        // }

        // std::cout << '\n';

        // std::cout << "lapai\n";
        pos = fenwickNext.findKthZero(cnt + 1);
    }

    // if (col == 3) std::cout << "\n\n      value: " << col << ' ' << m - fenwickNext.query(m) << ' ' << cnt << ' ' << pos << ' ' << fenwickActive.query(pos - 1) - fenwickActive.query(col - 1) + dp[pos] << '\n';
    return fenwickActive.query(pos - 1) - fenwickActive.query(col - 1) + dp[pos];
}

void fix(int col)
{
    // std::cout << "fix: " << col << '\n';
    assert(col <= m);
    llong prevVal = findValue(col);
    llong curr = dp[col];
    llong next = findValue(col + 1) + fenwickActive.query(col) - fenwickActive.query(col - 1);
    // std::cout << "here: " << curr << ' ' << next << '\n';
    int res = fenwickNext.query(col) - fenwickNext.query(col - 1);
    fenwickNext.update(col, -res);

    int nextVal = 0;
    if (curr > next) 
    {
        fenwickNext.update(col, 0); // unessesary
    } else 
    {
        nextVal = 1;
        fenwickNext.update(col, 1);
    }

    // std::cout << "set: " << col << " = " << curr << ' ' << next << '\n';
    dp[col] = std::max(curr, next);
    // std::cout << "fixing previous?: " << dp[col] << ' ' << prevVal << ' ' << fenwickNext.query(col - 1) - fenwickNext.query(col - 2) << '\n';
    if (col > 1 && fenwickNext.query(col - 1) < col - 1)
    {
        // fix(col - 1);
        int cntZeroesToNow = col - 1 - fenwickNext.query(col - 1);
        fix(fenwickNext.findKthZero(cntZeroesToNow));
        // if (prevVal <= dp[col])
        // {
        //     int cntBefore = col - 1 - fenwickNext.query(col - 1);
        //     for (int idx = col - 1 ; idx >= 1 ; --idx)
        //     {
        //         if (fenwickNext.query(idx) - fenwickNext.query(idx - 1) == 0)
        //         {
        //             fix(idx);
        //             return;
        //         }

        //         llong val = findValue(idx);
        //         fix(idx);
        //         llong val2 = findValue(idx);
        //         if (val != val2)
        //         {
        //             assert(fenwickNext.query(idx) - fenwickNext.query(idx - 1) == 0);
        //             exit(0);
        //         }

        //         assert(val == val2);
        //     }
        //     // std::cout << "cnt before: " << cntBefore << '\n';
        //     // if (cntBefore > 0)
        //     // {
        //     //     fix(fenwickNext.findKthZero(cntBefore));
        //     // }
        // } else
        // {
        //     // assert(false);
        //     int cntBefore = fenwickNext.query(col - 1);
        //     // std::cout << "cnt before: " << cntBefore << '\n';
        //     if (cntBefore > 0)
        //     {
        //         fix(fenwickNext.findKthOne(cntBefore));
        //     }
        // }
    }
}

void applyUpdate(int to, int val)
{
    for (int i = 1 ; i <= to ; ++i)
    {
        dp[i] += val;
    }
}

std::vector <int> activateAt[MAXN];
void solve()
{
    for (int i = 1 ; i <= n ; ++i)
    {
        prefixA[i] = prefixA[i - 1] + a[i].time;
    }

    for (int i = 1 ; i <= m ; ++i)
    {
        prefixB[i] = prefixB[i - 1] + b[i].time;
    }

    for (int aPos = n ; aPos >= 1 ; --aPos)
    {
        dpBorderM[aPos] = dpBorderM[aPos + 1] + (prefixA[aPos - 1] + prefixB[m] + a[aPos].time <= a[aPos].limit ? a[aPos].reward : 0);
    }

    for (int i = 1 ; i <= m ; ++i)
    {
        int l = 0, r = n + 2, mid;
        while (l < r - 1)
        {
            mid = (l + r) / 2;
            if (prefixA[mid - 1] + prefixB[i] <= b[i].limit) l = mid;
            else r = mid;
        }

        activateAt[l].push_back(i);
        // std::cout << "here: " << i << ' ' << l << '\n';
    }

    globalRow = n + 1;
    for (int i = 1 ; i <= n ; ++i)
    {
        fenwickNext.update(i, 1);
        isNext[i] = true;
    }

    std::sort(activateAt[n + 1].begin(), activateAt[n + 1].end(), std::greater <int> ());
    for (const int &idx : activateAt[globalRow])
    {
        // std::cout << "activate: " << idx << '\n';
        fenwickActive.update(idx, b[idx].reward);
        fix(idx);
    }

    // std::cout << "dp after: " << n + 1 << '\n';
    // for (int i = 1 ; i <= m ; ++i)
    // {
    //     std::cout << findValue(i) << ' ';
    // } 

    // std::cout << '\n';

    for (globalRow = n ; globalRow >= 1 ; --globalRow)
    {
        // std::cout << "      global: " << globalRow << '\n';
        for (const int &idx : activateAt[globalRow])
        {
            dp[idx] = findValue(idx);
        }
    
        int l = 0, r = m + 1, mid;
        while (l < r - 1)
        {
            mid = (l + r) / 2;
            if (prefixA[globalRow] + prefixB[mid - 1] <= a[globalRow].limit) l = mid;
            else r = mid;
        }

        if (l > 0)
        {
            dp[l] = findValue(l);
        }

        for (const int &idx : activateAt[globalRow])
        {
            // std::cout << "      activate: " << idx << '\n';
            fenwickActive.update(idx, b[idx].reward);
        }

        if (l > 0) activateAt[globalRow].push_back(l);
        applyUpdate(l, a[globalRow].reward);

        dp[m + 1] = dpBorderM[globalRow];
        activateAt[globalRow].push_back(m);
        std::sort(activateAt[globalRow].begin(), activateAt[globalRow].end(), std::greater <int> ());

        // std::cout << "after applying\n";
        // for (int i = 1 ; i <= m ; ++i)
        // {
        //     std::cout << findValue(i) << ' ';
        // } 

        // std::cout << '\n';

        // std::cout << "next is\n";
        // for (int i = 1 ; i <= m ; ++i)
        // {
        //     std::cout << fenwickNext.query(i) - fenwickNext.query(i - 1);
        // }

        // std::cout << '\n';
        for (const int &idx : activateAt[globalRow])
        {
            // std::cout << "fix: " << idx << '\n';
            fix(idx);
            // if (idx > 1) fix(idx - 1);
        }

        // for (int idx = m ; idx >= 1 ; --idx)
        // {
        //     fix(idx);
        // }

        // std::cout << "dp after: " << globalRow << '\n';
        // for (int i = 1 ; i <= m ; ++i)
        // {
        //     std::cout << findValue(i) << ' ';
        // } 

        // std::cout << '\n';
        // std::cout << "active\n";
        // for (int i = 1 ; i <= m ; ++i)
        // {
        //     std::cout << isActive[i] << ' ';
        // }

        // std::cout << '\n';
        // std::cout << "next\n";
        // for (int i = 1 ; i <= m ; ++i)
        // {
        //     std::cout << isNext[i] << ' ';
        // }

        // std::cout << '\n';
    }

    globalRow++;
    std::cout << findValue(1) << '\n';
}

void input()
{
    std::cin >> n >> m;
    for (int i = 1 ; i <= n ; ++i)
    {
        std::cin >> a[i].time >> a[i].limit >> a[i].reward;
        a[i].idx = i;
        a[i].type = false;
    }

    for (int i = 1 ; i <= m ; ++i)
    {
        std::cin >> b[i].time >> b[i].limit >> b[i].reward;
        b[i].idx = i;
        a[i].type = true;
    }
}

void fastIOI()
{
    std::ios_base :: sync_with_stdio(0);
    std::cout.tie(nullptr);
    std::cin.tie(nullptr);
}

signed main()
{
    fastIOI();
    input();
    solve();

    return 0;
}

Compilation message

dishes.cpp: In function 'void fix(long long int)':
dishes.cpp:123:11: warning: unused variable 'prevVal' [-Wunused-variable]
  123 |     llong prevVal = findValue(col);
      |           ^~~~~~~
dishes.cpp:130:9: warning: variable 'nextVal' set but not used [-Wunused-but-set-variable]
  130 |     int nextVal = 0;
      |         ^~~~~~~

Subtask #1

0 / 5.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	7761 ms	39532 KB	Output is correct
2	Execution timed out	10023 ms	45288 KB	Time limit exceeded
3	Halted	0 ms	0 KB	-

Subtask #2

3.0 / 3.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	2 ms	12892 KB	Output is correct
2	Correct	2 ms	12892 KB	Output is correct
3	Correct	2 ms	13144 KB	Output is correct
4	Correct	2 ms	12892 KB	Output is correct
5	Correct	2 ms	12892 KB	Output is correct
6	Correct	2 ms	12892 KB	Output is correct
7	Correct	2 ms	12892 KB	Output is correct
8	Correct	2 ms	12892 KB	Output is correct
9	Correct	2 ms	12892 KB	Output is correct
10	Correct	2 ms	12892 KB	Output is correct
11	Correct	2 ms	12888 KB	Output is correct
12	Correct	2 ms	12888 KB	Output is correct
13	Correct	2 ms	12892 KB	Output is correct
14	Correct	2 ms	12888 KB	Output is correct
15	Correct	2 ms	12892 KB	Output is correct
16	Correct	2 ms	13076 KB	Output is correct

Subtask #3

7.0 / 7.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	2 ms	12892 KB	Output is correct
2	Correct	2 ms	12892 KB	Output is correct
3	Correct	2 ms	13144 KB	Output is correct
4	Correct	2 ms	12892 KB	Output is correct
5	Correct	2 ms	12892 KB	Output is correct
6	Correct	2 ms	12892 KB	Output is correct
7	Correct	2 ms	12892 KB	Output is correct
8	Correct	2 ms	12892 KB	Output is correct
9	Correct	2 ms	12892 KB	Output is correct
10	Correct	2 ms	12892 KB	Output is correct
11	Correct	2 ms	12888 KB	Output is correct
12	Correct	2 ms	12888 KB	Output is correct
13	Correct	2 ms	12892 KB	Output is correct
14	Correct	2 ms	12888 KB	Output is correct
15	Correct	2 ms	12892 KB	Output is correct
16	Correct	2 ms	13076 KB	Output is correct
17	Correct	3 ms	12892 KB	Output is correct
18	Correct	4 ms	12892 KB	Output is correct
19	Correct	29 ms	13072 KB	Output is correct
20	Correct	13 ms	12940 KB	Output is correct
21	Correct	102 ms	13308 KB	Output is correct
22	Correct	29 ms	12888 KB	Output is correct
23	Correct	29 ms	12892 KB	Output is correct

Subtask #4

0 / 39.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	2 ms	12892 KB	Output is correct
2	Correct	2 ms	12892 KB	Output is correct
3	Correct	2 ms	13144 KB	Output is correct
4	Correct	2 ms	12892 KB	Output is correct
5	Correct	2 ms	12892 KB	Output is correct
6	Correct	2 ms	12892 KB	Output is correct
7	Correct	2 ms	12892 KB	Output is correct
8	Correct	2 ms	12892 KB	Output is correct
9	Correct	2 ms	12892 KB	Output is correct
10	Correct	2 ms	12892 KB	Output is correct
11	Correct	2 ms	12888 KB	Output is correct
12	Correct	2 ms	12888 KB	Output is correct
13	Correct	2 ms	12892 KB	Output is correct
14	Correct	2 ms	12888 KB	Output is correct
15	Correct	2 ms	12892 KB	Output is correct
16	Correct	2 ms	13076 KB	Output is correct
17	Correct	3 ms	12892 KB	Output is correct
18	Correct	4 ms	12892 KB	Output is correct
19	Correct	29 ms	13072 KB	Output is correct
20	Correct	13 ms	12940 KB	Output is correct
21	Correct	102 ms	13308 KB	Output is correct
22	Correct	29 ms	12888 KB	Output is correct
23	Correct	29 ms	12892 KB	Output is correct
24	Correct	174 ms	38132 KB	Output is correct
25	Correct	9277 ms	48672 KB	Output is correct
26	Execution timed out	10017 ms	42992 KB	Time limit exceeded
27	Halted	0 ms	0 KB	-

Subtask #5

0 / 11.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	2 ms	12892 KB	Output is correct
2	Correct	2 ms	12892 KB	Output is correct
3	Correct	2 ms	13144 KB	Output is correct
4	Correct	2 ms	12892 KB	Output is correct
5	Correct	2 ms	12892 KB	Output is correct
6	Correct	2 ms	12892 KB	Output is correct
7	Correct	2 ms	12892 KB	Output is correct
8	Correct	2 ms	12892 KB	Output is correct
9	Correct	2 ms	12892 KB	Output is correct
10	Correct	2 ms	12892 KB	Output is correct
11	Correct	2 ms	12888 KB	Output is correct
12	Correct	2 ms	12888 KB	Output is correct
13	Correct	2 ms	12892 KB	Output is correct
14	Correct	2 ms	12888 KB	Output is correct
15	Correct	2 ms	12892 KB	Output is correct
16	Correct	2 ms	13076 KB	Output is correct
17	Correct	3 ms	12892 KB	Output is correct
18	Correct	4 ms	12892 KB	Output is correct
19	Correct	29 ms	13072 KB	Output is correct
20	Correct	13 ms	12940 KB	Output is correct
21	Correct	102 ms	13308 KB	Output is correct
22	Correct	29 ms	12888 KB	Output is correct
23	Correct	29 ms	12892 KB	Output is correct
24	Correct	174 ms	38132 KB	Output is correct
25	Correct	9277 ms	48672 KB	Output is correct
26	Execution timed out	10017 ms	42992 KB	Time limit exceeded
27	Halted	0 ms	0 KB	-

Subtask #6

0 / 9.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	2 ms	12892 KB	Output is correct
2	Correct	2 ms	12892 KB	Output is correct
3	Correct	2 ms	13144 KB	Output is correct
4	Correct	2 ms	12892 KB	Output is correct
5	Correct	2 ms	12892 KB	Output is correct
6	Correct	2 ms	12892 KB	Output is correct
7	Correct	2 ms	12892 KB	Output is correct
8	Correct	2 ms	12892 KB	Output is correct
9	Correct	2 ms	12892 KB	Output is correct
10	Correct	2 ms	12892 KB	Output is correct
11	Correct	2 ms	12888 KB	Output is correct
12	Correct	2 ms	12888 KB	Output is correct
13	Correct	2 ms	12892 KB	Output is correct
14	Correct	2 ms	12888 KB	Output is correct
15	Correct	2 ms	12892 KB	Output is correct
16	Correct	2 ms	13076 KB	Output is correct
17	Correct	3 ms	12892 KB	Output is correct
18	Correct	4 ms	12892 KB	Output is correct
19	Correct	29 ms	13072 KB	Output is correct
20	Correct	13 ms	12940 KB	Output is correct
21	Correct	102 ms	13308 KB	Output is correct
22	Correct	29 ms	12888 KB	Output is correct
23	Correct	29 ms	12892 KB	Output is correct
24	Correct	174 ms	38132 KB	Output is correct
25	Correct	9277 ms	48672 KB	Output is correct
26	Execution timed out	10017 ms	42992 KB	Time limit exceeded
27	Halted	0 ms	0 KB	-

Subtask #7

0 / 17.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	7761 ms	39532 KB	Output is correct
2	Execution timed out	10023 ms	45288 KB	Time limit exceeded
3	Halted	0 ms	0 KB	-

Subtask #8

0 / 9.0

#	Verdict	Execution time	Memory	Grader output
1	Correct	7761 ms	39532 KB	Output is correct
2	Execution timed out	10023 ms	45288 KB	Time limit exceeded
3	Halted	0 ms	0 KB	-