Submission #533686

#TimeUsernameProblemLanguageResultExecution timeMemory
533686rumen_mAliens (IOI16_aliens)C++17
60 / 100
1720 ms72564 KiB
const int ALLOWED_OPERATIONS = 4e7; #include <bits/stdc++.h> using namespace std; #define jjs(i, s, x) for (int i = (s); i < int(x); ++i) #define jjl(i, x) jjs(i, 0, x) #define ji(x) jjl(i, x) #define jj(x) jjl(j, x) #define jk(x) jjl(k, x) #define jij(a, b) ji(a) jj(b) #define jij2d(v) jij((v).size(), (v)[i].size()) #define jjdescent(i, s, e) for (int i = (s)-1; i >= int(e); --i) #define jjrev(i, s) jjdescent(i, s, 0) #define foreach(x, C) for (auto& x : (C)) #define INF ((int) 1e9+10) #define LINF ((long long) 1e16) #define pb push_back #define mp make_pair #define rint readInteger template<typename T> bool readInteger(T& x) { char c, r = 0, n = 0; x = 0; while (true) { c = getchar(); if (c < 0 && !r) return 0; else if (c == '-' && !r) n = 1; else if (c >= '0' && c <= '9') x = x * 10 + c - '0', r = 1; else if (r) break; } if (n) x = -x; return 1; } template<typename T> vector<T> readIntegral(int n) { vector<T> ret(n); for (int i = 0; i < n; i++) readInteger(ret[i]); return ret; } auto readInts = readIntegral<int>; auto readLongs = readIntegral<long long>; template<typename T> vector<vector<T>> make2d(size_t r, size_t c) { return vector<vector<T>>(r, vector<T>(c)); } template<typename T> vector<vector<T>> make2d(size_t r, size_t c, const T& def) { return vector<vector<T>>(r, vector<T>(c, def)); } template <typename T, T MOD> struct ModInt { T value; ModInt() : value(0) {} ModInt(T x) { x %= MOD; if (x < 0) x += MOD; value = x; } public: ModInt& operator += (ModInt x) { value += x.value; if (value >= MOD) value -= MOD; return *this; } ModInt& operator -= (ModInt x) { value -= x.value; if (value < 0) value += MOD; return *this; } ModInt& operator *= (ModInt x) { value *= x.value; value %= MOD; return *this; } ModInt& operator /= (ModInt x) { x.invert(); return *this *= x; } ModInt operator + (ModInt x) const { ModInt o = *this; o += x; return o; } ModInt operator - (ModInt x) const { ModInt o = *this; o -= x; return o; } ModInt operator * (ModInt x) const { ModInt o = *this; o *= x; return o; } ModInt operator / (ModInt x) const { ModInt o = *this; o /= x; return o; } bool operator == (ModInt x) const { return value == x.value; } bool operator != (ModInt x) const { return !(*this == x); } ModInt operator - () const { return ModInt(0) - *this; } ModInt operator ^ (long long x) const { ModInt ret = 1 % MOD; ModInt mul = *this; while (x) { if (x & 1) ret *= mul; mul *= mul; x >>= 1; } return ret; } ModInt& operator ^= (long long x) { return *this = *this ^ x; } private: void invert() { *this ^= MOD-2; } public: friend ostream& operator << (ostream& out, const ModInt& x) { return out << x; } }; template<typename T> using v2d = vector<vector<T>>; typedef ModInt<long long, 1000000007> mint; typedef long long ll; typedef pair<int, int> PII; typedef vector<PII> VPII; typedef vector<int> VI; typedef v2d<int> VVI; typedef vector<ll> VLL; typedef v2d<ll> VVLL; typedef vector<char> VCH; typedef v2d<char> VVCH; PII expand(PII a, PII b) { return {min(a.first, b.first), max(a.second, b.second)}; } PII contract(PII a, PII b) { return {max(a.first, b.first), min(a.second, b.second)}; } ll area(PII x) { ll z = x.second - x.first + 1; if (z <= 0) return 0; else return z * z; } ll gain(PII a, PII b) { return area(expand(a, b)) - area(a) - area(b) + area(contract(a, b)); } ll intersect(PII a, PII b) { return area(contract(a, b)); } struct entry { int x; ll base; ll cost(int y) { ll d = y - x + 1; assert(d >= 0); return d * d + base; } }; ll sqr(ll x) { return x * x; } double meet(const entry& a, const entry& b) { ll c1 = a.base + sqr(a.x); ll c2 = b.base + sqr(b.x); return (double) (c2 - c1) / (-2 * (a.x - b.x)); } struct hull { deque<entry> q; ll bestCost(int x) { while (q.size() > 1) { if (q[0].cost(x) > q[1].cost(x)) q.pop_front(); else break; } if (q.empty()) return LINF; else return q[0].cost(x); } void offer(entry e, int y) { while (q.size() > 1 && meet(e, q.back()) <= meet(q.back(), q[q.size()-2])) { q.pop_back(); } while (q.size() > 0 && q.back().cost(y) >= e.cost(y)) { q.pop_back(); } q.push_back(e); } }; ll solve(int sz, int photos, VPII pts) { int n = pts.size(); vector<hull> hulls(photos); int begin = pts[0].first; int end = pts.back().second; ji(photos) hulls[i].offer({begin, 0LL}, begin); int margin = n; while ((ll) photos * margin > ALLOWED_OPERATIONS) { --margin; } VI weight(n); ji(n) weight[i] = 1; ll weightTot = 0; foreach(x, weight) weightTot += x; ll weightSum = 0; int idx = 0; VI balanceA(photos); VI balanceB(photos); ji(photos) { while (idx < n-1 && weightSum < weightTot * i / photos) { weightSum += weight[idx]; ++idx; } balanceA[i] = max(0, idx - margin / 2); balanceB[i] = min(n-1, balanceA[i] + margin); balanceA[i] = max(0, balanceB[i] - margin); } int a = 1; int b = 0; for (int j = 1; j < n; j++) { while (b < photos-1 && balanceA[b+1] <= j) ++b; while (a <= b && balanceB[a] < j) ++a; for (int i = b; i >= a; i--) { hulls[i].offer({pts[j].first, hulls[i-1].bestCost(pts[j-1].second) - intersect(pts[j-1], pts[j])}, pts[j].second); } } return hulls.back().bestCost(end); } long long take_photos(int n, int m, int k, vector<int> row, vector<int> col) { VPII ranges; ji(row.size()) { int a = min(row[i], col[i]); int b = max(row[i], col[i]); ranges.pb({a, b}); } foreach(x, ranges) x.second *= -1; sort(ranges.begin(), ranges.end()); foreach(x, ranges) x.second *= -1; VPII nranges; foreach(r, ranges) { if (nranges.empty() || r.second > nranges.back().second) nranges.pb(r); } return solve(m, k, nranges); } // BEGIN CUT /* int main() { int n, m, k; scanf("%d %d %d", &n, &m, &k); std::vector<int> r(n), c(n); for (int i = 0; i < n; i++) { scanf("%d %d", &r[i], &c[i]); } long long ans = take_photos(n, m, k, r, c); // BEGIN SECRET puts("098d134608c94f7413faac591054ee35"); // END SECRET printf("%lld\n", ans); return 0; } */ // END CUT
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