Submission #1129290

#TimeUsernameProblemLanguageResultExecution timeMemory
1129290antonnNaan (JOI19_naan)C++20
29 / 100
4094 ms3396 KiB
#include <bits/stdc++.h> using namespace std; #define ll long long #define ld long double #define all(a) a.begin(), a.end() #define rall(a) a.rbegin(), a.rend() int n, L; vector<vector<int>> v; vector<vector<ll>> pref; mt19937 rng((long long) (new char)); struct Frac { __int128 p; __int128 q; Frac(__int128 a = 0, __int128 b = 1) : p(a), q(b) {} void reduce() { ll d = __gcd(p, q); p /= d; q /= d; } ll getIntValue() { return p / q; } }; bool operator <= (Frac a, Frac b) { return a.p * b.q <= a.q * b.p; } __int128 lcm(__int128 a, __int128 b) { return a * b / __gcd(a, b); } void myassert(bool cond) { if (cond == false) { while (true); } } Frac operator + (Frac a, Frac b) { Frac c = {0, 0}; __int128 d = lcm(a.q, b.q); myassert(d >= 0); c.p = a.p * (d / a.q) + b.p * (d / b.q); c.q = d; c.reduce(); return c; } Frac operator - (Frac a, Frac b) { assert(b <= a); Frac c; __int128 d = lcm(a.q, b.q); myassert(d >= 0); c.p = a.p * (d / a.q) - b.p * (d / b.q); c.q = d; c.reduce(); return c; } Frac operator * (int x, Frac f) { Frac res = {f.p * x, f.q}; res.reduce(); return res; } Frac operator / (Frac f, int x) { Frac res = {f.p, f.q * x}; res.reduce(); return res; } int32_t main() { if (1) { ios::sync_with_stdio(0); cin.tie(0); cout.tie(0); } cin >> n >> L; v.assign(n + 1, vector<int>(L + 2)); pref.assign(n + 1, vector<ll>(L + 1)); vector<Frac> need(n + 1); for (int i = 1; i <= n; i += 1) { ll sum = 0; for (int j = 1; j <= L; j += 1) { cin >> v[i][j]; sum += v[i][j]; pref[i][j] = pref[i][j - 1] + v[i][j]; } v[i][L + 1] = 1; need[i] = {sum, n}; need[i].reduce(); } vector<pair<int, Frac>> sol; for (int step = 1; step <= 100; step += 1) { vector<int> ord(n); iota(all(ord), 1); shuffle(all(ord), rng); shuffle(all(ord), rng); shuffle(all(ord), rng); shuffle(all(ord), rng); shuffle(all(ord), rng); vector<pair<int, Frac>> cur; Frac eaten = {0, 1}; int full = 0; bool bad = 0; for (auto i : ord) { Frac split; if (full == L) { bad = 1; break; } if (need[i] <= v[i][full + 1] * (Frac(full + 1, 1) - eaten)) { split = eaten + (need[i] / v[i][full + 1]); split.reduce(); } else { Frac aux = need[i]; aux = aux - v[i][full + 1] * (Frac(full + 1, 1) - eaten); split.reduce(); if (!(Frac(0, 1) <= aux)) { bad = 1; break; } int low = full + 2, high = L, sol = full + 1; while (low <= high) { int m = (low + high) / 2; if (Frac(pref[i][m] - pref[i][full + 1], 1) <= aux) { sol = m; low = m + 1; } else { high = m - 1; } } if (sol > L) { bad = 1; break; } aux = aux - Frac(pref[i][sol] - pref[i][full + 1], 1); split = sol + (aux / v[i][sol + 1]); split.reduce(); if (!(split <= Frac(L, 1))) { bad = 1; break; } } eaten = split; full = eaten.getIntValue(); cur.push_back({i, eaten}); } if (bad == 0) { sol = cur; break; } } if (sol.size() != n) { cout << -1 << "\n"; return 0; } for (int i = 0; i < sol.size() - 1; i += 1) { int who = sol[i].first; Frac split = sol[i].second; cout << (ll) split.p << " " << (ll) split.q << "\n"; } for (int i = 0; i < sol.size(); i += 1) { int who = sol[i].first; Frac split = sol[i].second; cout << who << " "; } cout << "\n"; return 0; }
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