# | Submission time | Handle | Problem | Language | Result | Execution time | Memory |
---|---|---|---|---|---|---|---|
509815 | 2022-01-14T10:46:16 Z | 600Mihnea | Archery (IOI09_archery) | C++17 | 21 ms | 22840 KB |
#include <bits/stdc++.h> using namespace std; const int N = 2 * 200000 + 7; const int INF = (int) 1e9 + 7; int n; int r; int my_rank; int init_ord[N]; int ord[N]; int winner[N]; int loser[N]; vector<int> guys[N]; bool wannap; int thesol[N]; int simulate_step_for_get_brute() { for (int i = 0; i < n; i++) { if (ord[2 * i] < ord[2 * i + 1]) { winner[i] = ord[2 * i]; loser[i] = ord[2 * i + 1]; } else { winner[i] = ord[2 * i + 1]; loser[i] = ord[2 * i]; } guys[i].clear(); } guys[0].push_back(winner[0]); for (int i = 1; i < n; i++) { guys[i - 1].push_back(winner[i]); guys[i].push_back(loser[i]); } guys[n - 1].push_back(loser[0]); for (int i = 0; i < n; i++) { for (int it = 0; it < 2; it++) { ord[2 * i + it] = guys[i][it]; } } return (loser[0] == my_rank); } void print() { cout << " ----> "; for (int i = 0; i < 2 * n; i++) { cout << ord[i] + 1 << " "; } cout << "\n"; } int get_brute(int pos) { pos = 2 * pos; int sol = -1, ans = 0; assert(0 <= pos && pos < 2 * n); ord[pos] = my_rank; for (int i = 0; i < pos; i++) { ord[i] = init_ord[i]; } for (int i = pos + 1; i < 2 * n; i++) { ord[i] = init_ord[i - 1]; } if (wannap) print(); for (int j = 1; j <= r; j++) { ans += simulate_step_for_get_brute(); if (wannap) print(); } for (int i = 0; i < 2 * n; i++) { if (ord[i] == my_rank) { sol = i; } } if (wannap) cout << "= " << sol << "\n"; assert(sol != -1); return sol / 2 - ans * n; } int rep(int x) { x %= n; if (x < 0) x += n; return x; } enum TYPE {BIG, SMALL, EQUAL}; int cnt_big[N]; int cnt_equal[N]; TYPE type[N]; int get_smart(int x) { if (my_rank == 0) { return 0; } if (my_rank <= n) { int pos = 2 * x; ord[pos] = my_rank; for (int i = 0; i < pos; i++) { ord[i] = init_ord[i]; } for (int i = pos + 1; i < 2 * n; i++) { ord[i] = init_ord[i - 1]; } set<pair<int, int>> guys; for (int i = 0; i < 2 * n; i++) { guys.insert({i / 2, ord[i]}); } int ant = max(ord[0], ord[1]); set<int> inside; vector<int> mxs; for (int iter = 1; iter <= r; iter++) { while (!guys.empty() && guys.begin()->first < iter) { inside.insert(guys.begin()->second); guys.erase(guys.begin()); } assert(!inside.empty()); auto smallestIt = inside.begin(); int smallest = *smallestIt; inside.erase(smallestIt); if (iter == 1) { inside.clear(); } int nw = iter - 1 + n; int mx = max(smallest, ant); int mn = min(smallest, ant); mxs.push_back(mx); ant = mn; guys.insert({nw, mx}); } int last_seen = -1, transfering = 0; for (int i = 0; i < r; i++) { if (mxs[i] == my_rank) { last_seen = i; transfering++; } } int thepos = n - (r - 1 - last_seen) - 1; return thepos - n * transfering; } assert(my_rank >= n + 1); int pos = 2 * x; ord[pos] = my_rank; for (int i = 0; i < pos; i++) { ord[i] = init_ord[i]; } for (int i = pos + 1; i < 2 * n; i++) { ord[i] = init_ord[i - 1]; } for (int i = 0; i < 2 * n; i++) { if (ord[i] == my_rank) { type[i] = EQUAL; } if (ord[i] > my_rank) { type[i] = BIG; } if (ord[i] < my_rank) { type[i] = SMALL; } } for (int i = 0; i < n; i++) { cnt_big[i] = (type[2 * i] == BIG) + (type[2 * i + 1] == BIG); cnt_equal[i] = (type[2 * i] == EQUAL) + (type[2 * i + 1] == EQUAL); } int big_in_hand = 0, equal_in_hand = 0, transfering = 0; function<void()> handle0 = [&] () { assert(0 <= equal_in_hand && equal_in_hand <= 1); assert(0 <= big_in_hand); assert(0 <= cnt_equal[0] && cnt_equal[0] <= 1); assert(0 <= cnt_big[0] && cnt_big[0] <= 2); /// if EQUAL vs BIG => EQUAL remains, BIG goes int the_sum = cnt_big[0] + cnt_equal[0]; big_in_hand += cnt_big[0]; equal_in_hand += cnt_equal[0]; cnt_big[0] = cnt_equal[0] = 0; if (the_sum != 2) { /// there is a small one and it pushes them away transfering += (equal_in_hand); return; } if (equal_in_hand) { assert(equal_in_hand == 1); cnt_equal[0] = 1; equal_in_hand = 0; } else { if (big_in_hand) { cnt_big[0] = 1; big_in_hand--; } } transfering += (equal_in_hand); }; function<void(int)> handlenot0 = [&] (int i) { assert(0 <= equal_in_hand && equal_in_hand <= 1); assert(0 <= big_in_hand); assert(0 <= cnt_equal[0] && cnt_equal[0] <= 1); assert(0 <= cnt_big[0] && cnt_big[0] <= 2); /// if EQUAL vs BIG => BIG remains, EQUAL goes big_in_hand += cnt_big[i]; equal_in_hand += cnt_equal[i]; cnt_big[i] = cnt_equal[i] = 0; if (big_in_hand) { cnt_big[i] = 1; big_in_hand--; } else { if (equal_in_hand) { assert(equal_in_hand == 1); cnt_equal[i] = 1; equal_in_hand = 0; } } }; function<void()> printsituation = [&] () { for (int i = 0; i < n; i++) { cout << "(" << cnt_equal[i] << ", " << cnt_big[i] << ") "; } cout << " | " << equal_in_hand << " vs " << big_in_hand << "\n"; }; // printsituation(); handle0(); // printsituation(); exit(0); for (int i = n - 1; i >= 1; i--) handlenot0(i); handle0(); for (int i = n - 1; i >= 1; i--) handlenot0(i); int thepos = -1; for (int i = 0; i < n; i++) { if (cnt_equal[i]) { thepos = i; } } assert(thepos != -1); return thepos - n * transfering; int val = get_brute(x); cout << val << " vs " << thepos - n * transfering << "\n"; return val; } int get(int x) { if (thesol[x] != INF) { return thesol[x]; } thesol[x] = get_smart(x); return thesol[x]; } int mn = (int) 1e9; int best = -1; void upd(int i) { int x = get(i); int y = rep(x); if (y < mn) { mn = y; best = i; } else { if (y == mn) { best = max(best, i); } } } signed main() { ios::sync_with_stdio(0); cin.tie(0); freopen ("input", "r", stdin); for (int i = 0; i < N; i++) { thesol[i] = INF; } wannap = 0; cin >> n >> r; r = 2 * n + r % n; cin >> my_rank; my_rank--; for (int i = 0; i < 2 * n - 1; i++) { cin >> init_ord[i]; init_ord[i]--; } upd(0); upd(n - 1); { int low = 0, high = n - 1; while (low <= high) { int mid = (low + high) / 2; upd(mid); if (get(mid) == get(0)) { low = mid + 1; } else { high = mid - 1; } } } int L = get(0), R = get(n - 1); for (int j = L; j <= R; j++) { if (j % n) { continue; } int low = 0, high = n - 1, the_value = INF; while (low <= high) { int mid = (low + high) / 2; upd(mid); if (get(mid) >= j) { high = mid - 1; the_value = mid; } else { low = mid + 1; } } low = the_value; high = n - 1; while (low <= high) { int mid = (low + high) / 2; upd(mid); if (get(mid) == get(the_value)) { low = mid + 1; } else { high = mid - 1; } } } cout << best + 1 << "\n"; return 0; }
Compilation message
# | Verdict | Execution time | Memory | Grader output |
---|---|---|---|---|
1 | Runtime error | 16 ms | 22796 KB | Execution killed with signal 8 |
2 | Runtime error | 16 ms | 22808 KB | Execution killed with signal 8 |
3 | Runtime error | 17 ms | 22760 KB | Execution killed with signal 8 |
4 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
5 | Runtime error | 17 ms | 22796 KB | Execution killed with signal 8 |
6 | Runtime error | 16 ms | 22708 KB | Execution killed with signal 8 |
# | Verdict | Execution time | Memory | Grader output |
---|---|---|---|---|
1 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
2 | Runtime error | 18 ms | 22732 KB | Execution killed with signal 8 |
3 | Runtime error | 17 ms | 22816 KB | Execution killed with signal 8 |
4 | Runtime error | 17 ms | 22740 KB | Execution killed with signal 8 |
5 | Runtime error | 17 ms | 22800 KB | Execution killed with signal 8 |
6 | Runtime error | 16 ms | 22744 KB | Execution killed with signal 8 |
7 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
8 | Runtime error | 17 ms | 22752 KB | Execution killed with signal 8 |
9 | Runtime error | 17 ms | 22740 KB | Execution killed with signal 8 |
10 | Runtime error | 17 ms | 22812 KB | Execution killed with signal 8 |
11 | Runtime error | 19 ms | 22724 KB | Execution killed with signal 8 |
12 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
13 | Runtime error | 16 ms | 22760 KB | Execution killed with signal 8 |
14 | Runtime error | 17 ms | 22732 KB | Execution killed with signal 8 |
15 | Runtime error | 16 ms | 22788 KB | Execution killed with signal 8 |
16 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
17 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
18 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
19 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
20 | Runtime error | 16 ms | 22792 KB | Execution killed with signal 8 |
21 | Runtime error | 16 ms | 22740 KB | Execution killed with signal 8 |
22 | Runtime error | 16 ms | 22804 KB | Execution killed with signal 8 |
23 | Runtime error | 17 ms | 22736 KB | Execution killed with signal 8 |
24 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
25 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
26 | Runtime error | 16 ms | 22828 KB | Execution killed with signal 8 |
27 | Runtime error | 16 ms | 22744 KB | Execution killed with signal 8 |
28 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
29 | Runtime error | 19 ms | 22840 KB | Execution killed with signal 8 |
30 | Runtime error | 20 ms | 22720 KB | Execution killed with signal 8 |
31 | Runtime error | 18 ms | 22780 KB | Execution killed with signal 8 |
32 | Runtime error | 18 ms | 22732 KB | Execution killed with signal 8 |
33 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
34 | Runtime error | 17 ms | 22732 KB | Execution killed with signal 8 |
35 | Runtime error | 17 ms | 22804 KB | Execution killed with signal 8 |
36 | Runtime error | 21 ms | 22780 KB | Execution killed with signal 8 |
37 | Runtime error | 18 ms | 22792 KB | Execution killed with signal 8 |
38 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
39 | Runtime error | 16 ms | 22752 KB | Execution killed with signal 8 |
40 | Runtime error | 16 ms | 22800 KB | Execution killed with signal 8 |
41 | Runtime error | 16 ms | 22812 KB | Execution killed with signal 8 |
42 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
43 | Runtime error | 17 ms | 22732 KB | Execution killed with signal 8 |
44 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
45 | Runtime error | 16 ms | 22732 KB | Execution killed with signal 8 |
46 | Runtime error | 17 ms | 22744 KB | Execution killed with signal 8 |
47 | Runtime error | 16 ms | 22744 KB | Execution killed with signal 8 |