Submission #284134

#TimeUsernameProblemLanguageResultExecution timeMemory
284134inbarinT-Covering (eJOI19_covering)C++14
0 / 100
2 ms640 KiB
#include <fstream> #include <iostream> #include <vector> #include <set> #include <list> #include <map> #include <queue> #include <deque> #include <string> #include <stack> #include <algorithm> #include <utility> #include <math.h> #include <ctime> using namespace std; typedef long long int63; typedef unsigned long long int64; #define forl(name,start,end,jump) for(int63 name = start; name < end; name+=jump) #define forlb(name,start,end,jump) for(int63 name = end - 1; name >= start; name+=jump) #define forn(name,start,end) forl(name,start,end,1) #define fornb(name,start,end) forlb(name,start,end,-1) #define fort(start,end) forn(i,start,end) #define fortb(start,end) fornb(i,start,end) #define forto(start,end) forn(j,start,end) #define fortob(start,end) fornb(j,start,end) #define fortoo(start,end) forn(l,start,end) #define all(vec) vec.begin(),vec.end() #define makeitem(itemname,itemtype) itemtype itemname; cin >> itemname #define point pair<int63,int63> #define spoint pair<short,short> #define ipoint pair<int,int> #define matrix(type) vector<vector<type>> #define make(name) int63 name; cin >> name #define tosort(name) name.begin(),name.end() int63 powmod(int63 base, int63 exponent, int63 mod) { int63 result = 1; while (exponent > 0) { if (exponent % 2 == 0) { exponent /= 2; base = (base * base) % mod; } else { result = (result * base) % mod; exponent /= 2; base = (base * base) % mod; } } return result; } bool decresing(int63 x, int63 y) { return x > y; } int63 modInverse(int63 a, int63 b) {//finds inverse of a mod b ...? int63 m = b; int63 y = 0, x = 1; while (a > 1) { int63 q = a / m; int63 t = m; m = a % m, a = t; t = y; y = x - q * y; x = t; } if (x < 0) { x += b; } return x; } int63 trin(int63 start, int63 stop) { return (stop - start + 1) * (stop + start) / 2; } int63 trin2(int63 start, int63 stop, int63 mod) { return ((stop - start + 1) * (stop + start) / 2) % mod; } int63 trig(int63 start, int63 stop, int63 jump, int63 mod) { return ((trin2(start / jump, (stop - (start % jump)) / jump, mod)*jump + ((stop - (start % jump)) / jump - (start / jump) + 1) * (start % jump)) % mod); } int63 cntot(int63 start, int63 stop, int63 jump, int63 mod) { return (stop / jump - (start + jump - 1) / jump + 1) % mod; } bool sortvectorf(point a, point b) { return((a.first > b.first) || (a.first == b.first && a.second > b.second)); } bool sortvectordiv(point a, point b) { return a.first * b.second > b.first * a.second; } bool sortvectorfv(point a, point b) { return((a.first > b.first) || (a.first == b.first && a.second < b.second)); } bool sortvectors(point a, point b) { return((a.second > b.second) || (a.second == b.second && a.first > b.first)); } bool negasortvectorf(point a, point b) { return((a.first < b.first) || (a.first == b.first && a.second < b.second)); } bool negasortvectors(point a, point b) { return((a.second < b.second) || (a.second == b.second && a.first < b.first)); } vector<vector<int63>> findPermutationsI(vector<int63> &a) { // Sort the given array sort(a.begin(), a.end()); vector<vector<int63> > sol; // Find all possible permutations do { sol.push_back(a); } while (next_permutation(a.begin(), a.end())); return sol; } vector<vector<string>> findPermutationsS(vector<string> &a) { // Sort the given array sort(a.begin(), a.end()); vector<vector<string> > sol; // Find all possible permutations do { sol.push_back(a); } while (next_permutation(a.begin(), a.end())); return sol; } int63 gcd(int63 a, int63 b) { if (a == 0) { return b; } if (b == 0) { return a; } return gcd(b % a, a); } bool isprime(int63 n) { fort(2, n) { if (i * i > n) { break; } if ((n / i) * i == n) { return false; } } return true; } int63 fdivisor(int63 n, int63 fro) { fort(1, n + 1) { if ((n / i) * i == n && i >= fro) { return i; } } return -1; } vector<int63> divlist(int63 n) { vector<int63> curr; fort(1, n + 1) { if ((int63)i * i > n) { break; } if ((n / i) * i == n) { curr.push_back(i); curr.push_back(n / i); } if ((int63)i * i == n) { curr.pop_back(); } } sort(all(curr)); return curr; } int63 divcnt(int63 n) { int63 ans = 1; fort(2, n + 1) { if (i*i > n) { ans *= 2; break; } int63 cur = 1; while (n % i == 0) { n /= i; cur++; } ans *= cur; } return ans; } vector<int63> pdivlist(int63 n) { vector<int63> curr; fort(2, n + 1) { if ((int63)i * i > n) { break; } if ((n / i) * i == n) { if (isprime(i)) { curr.push_back(i); } if (isprime(n / i)) { curr.push_back(n / i); } } if ((int63)i * i == n && isprime(i)) { curr.pop_back(); } } sort(all(curr)); return curr; } int63 countdivisors(int63 n, int63 divd, int63 rem) { vector<int63> divs = divlist(n); int63 tot = 0; fort(0, (int63)divs.size()) { if (divs[(int)i] % divd == rem) { tot++; } } if (n % divd == rem) { tot++; } return tot; } int63 digsum(int63 num) { int63 cr = 0; while (num) { cr += num % 10; num /= 10; } return cr; } int63 azeret(int63 num, int63 mod) { int63 sil = 1; while (num > 1) { sil *= num; sil %= mod; num--; } return sil; } int63 moddiv(int63 to, int63 by, int63 mod) { to %= mod; by %= mod; to *= modInverse(by, mod); return to % mod; } class node { public: int data1; int data2; node* nxt; node* bef; node(int dat1, int dat2, node*bif) { this->nxt = NULL; this->bef = bif; this->bef->nxt = this; this->data1 = dat1; this->data2 = dat2; } node(int dat1, int dat2) { this->nxt = NULL; this->bef = NULL; this->data1 = dat1; this->data2 = dat2; } node() { this->nxt = NULL; this->bef = NULL; this->data1 = 0; this->data2 = 0; } void remove() { this->bef->nxt = this->nxt; if (this->nxt != NULL) { this->nxt->bef = this->bef; } } void push(int dat1, int dat2) { node* next = this->nxt; node* curr = new node(dat1, dat2, this); curr->nxt = next; next->bef = curr; } }; bool by_first(pair<point, point> a, pair<point, point> b) { return a.first.first < b.first.first; } bool ff_fs(pair<pair<int63, bool>, int63> a, pair<pair<int63, bool>, int63> b) { return a.first.first < b.first.first || (a.first.first == b.first.first && a.first.second && !b.first.second); } bool f_s_b(pair<int63, int63> a, pair<int63, int63> b) { return a.first > b.first || (a.first == b.first && a.second > b.second); } bool palindrome(string s) { fort(0, (int63)s.size() / 2) { if (s[(int)i] != s[s.size() - 1 - (int)i]) { return 0; } } return 1; } struct union_find { vector<int>rot; vector<int> posrat; vector<vector<int>> rat; int63 cnt; void init(int n) { fort(0, n) { rot.push_back((int)i); rat.push_back({ (int)i }); posrat.push_back((int)i); } cnt = n; } bool isunion(int f, int s) { if (rot[f] == rot[s]) { return true; } return false; } bool unio(int f, int s) { if (rot[f] == rot[s]) { return false; } cnt--; //rot[f] <-> rot[s] if (rat[(int)posrat[rot[f]]].size() > rat[(int)posrat[rot[s]]].size()) { //s to f int siz = rat[posrat[rot[s]]].size(); int rs = rot[s]; fort(0, siz) { rat[posrat[rot[f]]].push_back(rat[posrat[rs]][(int)i]); rot[rat[posrat[rs]][(int)i]] = rot[f]; } rat[rs].clear(); return true; } int siz = rat[posrat[rot[f]]].size(); int rf = rot[f]; fort(0, siz) { rat[posrat[rot[s]]].push_back(rat[posrat[rf]][(int)i]); rot[rat[posrat[rf]][(int)i]] = rot[s]; } rat[rf].clear(); return true; } }; vector<int63> subsum(vector<int> items, int limit) { vector<vector<int> > table(items.size() + 1, vector<int>(limit + 1)); forto(1, (int63)items.size() + 1) { int wt = items[(int)j - 1]; int val = wt; for (int w = 1; w < limit + 1; w++) { if (wt > w) { table[(int)j][w] = table[(int)j - 1][w]; } else { table[(int)j][w] = max(table[(int)j - 1][w], (int)(table[(int)j - 1][w - wt] + val)); } } } vector<int63> result; int w = limit; for (int63 j = (int63)items.size(); j > 0; j--) { bool was_added = table[(int)j][w] != table[(int)j - 1][w]; if (was_added) { int wt = items[(int)j - 1]; result.push_back((int)j - 1); w -= wt; } } sort(all(result)); return result; } bool func(pair<point, int63>a, pair<point, int63>b) { return a.first.second < b.first.second || (a.first.second == b.first.second && a.first.first < b.first.first); } int63 palpref(string &s) { int63 ha1 = 0, ha2 = 0, hr1 = 0, hr2 = 0; int63 m1 = 1, m2 = 1; int63 mix = 0; forto(0, (int63)s.size()) { ha1 = (ha1 + m1 * s[(int)j]) % 1000000007; ha2 = (ha2 + m2 * s[(int)j]) % 998244353; hr1 = (s[(int)j] + 359 * hr1) % 1000000007; hr2 = (s[(int)j] + 401 * hr2) % 998244353; m1 *= 359, m1 %= 1000000007; m2 *= 401, m2 %= 998244353; if (ha1 == hr1 && ha2 == hr2) { mix = j + 1; } } return mix; } struct fenwick { int n; vector<int63> data; vector<int63> real; void init(int n) { this->n = n; data.resize(n); real.resize(n); } void update(int pos, int63 val) { int rpos = pos; pos++; int63 cur = 0; while (pos << cur <= this->n) { if (pos % 2 == 1) { this->data[(pos << cur) - 1] += val - this->real[rpos]; } cur++; pos = (pos + 1) / 2; } this->real[rpos] = val; } void add(int pos, int63 val) { int rpos = pos; pos++; int63 cur = 0; while (pos << cur <= this->n) { if (pos % 2 == 1) { this->data[(pos << cur) - 1] += val; } cur++; pos = (pos + 1) / 2; } this->real[rpos] += val; } int63 query0(int a) { int63 sol = 0; int63 cur = 0; a++; while (a) { if (a % 2 == 1) { sol += this->data[(a << cur) - 1]; } cur++; a = a / 2; } return sol; } int63 query(int a, int b) { return query0(b) - query0(a - 1); } }; struct fenwick2 { int63 n, m; vector<vector<int63>> data; vector<vector<int63>> real; void init(int n, int m) { this->n = n; this->m = m; data = vector<vector<int63>>(n, vector<int63>(m)); real = vector<vector<int63>>(n, vector<int63>(m)); } void update(int posx, int posy, int63 val) { int rposx = posx; int rposy = posy; posx++; posy++; int63 cur2 = 0; while (posy << cur2 <= this->m) { if (posy % 2 == 1) { int63 cur1 = 0; while (posx << cur1 <= this->n) { if (posx % 2 == 1) { this->data[(posx << cur1) - 1][(posy << cur2) - 1] += val - this->real[rposx][rposy]; } cur1++; posx = (posx + 1) / 2; } posx = rposx + 1; } cur2++; posy = (posy + 1) / 2; } this->real[rposx][rposy] = val; } int63 query0(int x, int y) { int63 sol = 0; int63 cur2 = 0; y++; int cx = x + 1; while (y) { if (y % 2 == 1) { int63 cur1 = 0; x = cx; while (x) { if (x % 2 == 1) { sol += this->data[(x << cur1) - 1][(y << cur2) - 1]; } cur1++; x = x / 2; } } cur2++; y = y / 2; } return sol; } int63 query(int fx, int fy, int sx, int sy) { return this->query0(sx, sy) - this->query0(sx, fy - 1) - this->query0(fx - 1, sy) + this->query0(fx - 1, fy - 1); } }; double diffclock(clock_t clock1, clock_t clock2) { double diffticks = clock1 - clock2; double diffms = (diffticks) / (CLOCKS_PER_SEC / 1000); return diffms; } int63 detrig(int63 num) { int63 minus = 0; while (true) { num -= minus; if (num < 0) { return minus; } if (num - trin(minus + 1, minus + 1000) >= 0) { num -= trin(minus + 1, minus + 1000); minus += 1000; } minus++; } } int63 detrig2(int63 num, int63 minus) { while (true) { num -= minus; if (num < 0) { return minus; } if (num - trig(minus + 2, minus + 1000, 2, 4999999999999999999) >= 0) { num -= trig(minus + 2, minus + 1000, 2, 4999999999999999999); minus += 1000; } minus += 2; } } # define PI 3.14159265358979323846 struct ifenwick { int63 n; vector<int> data; vector<int> real; void init(int n) { this->n = n; data.resize(n); real.resize(n); } void add(int pos, int val) { int rpos = pos; pos++; int cur = 0; while (pos << cur <= this->n) { if (pos % 2 == 1) { this->data[(pos << cur) - 1] += val; } cur++; pos = (pos + 1) / 2; } this->real[rpos] += val; } int query0(int a) { int sol = 0; int cur = 0; a++; while (a) { if (a % 2 == 1) { sol += this->data[(a << cur) - 1]; } cur++; a /= 2; } return sol; } }; #define MOD % 1000000007 #define mod 1000000007 struct treestruct { int63 n; int63 root; vector<int63>layer; vector<vector<int63>>jumps; void initialize(int63 N) { n = N; jumps = vector<vector<int63>>(n, vector<int63>(18)); layer = vector<int63>(n, -1); } void setroot(int63 a) { root = a; layer[root] = 0; jumps[root][0] = root; } bool addedge(int63 a, int63 b) { if (layer[a] == -1) { return false; } layer[b] = layer[a] + 1; jumps[b][0] = a; return true; } void lift() { forto(1, 18) { fort(0, n) { jumps[i][j] = jumps[jumps[i][j - 1]][j - 1]; } } } int63 dist(int63 a, int63 b) { if (a == b) { return 0; } if (layer[a] <= layer[b]) { return -1; } int63 dif = layer[a] - layer[b]; int63 ans = dif; fortb(0, 18) { if (dif >= (1 << i)) { dif -= (1 << i); a = jumps[a][i]; } } if (a == b) { return ans; } return -1; } }; int main() { ios::sync_with_stdio(false); cin.tie(0); cout.tie(0); make(n); make(m); vector<vector<int63>>v(n, vector<int63>(m)); fort(0, n) { forto(0, m) { cin >> v[i][j]; } } make(k); vector<point>p; int63 sm = 0; fort(0, k) { cin >> p[i].first >> p[i].second; if ((p[i].first == 0 || p[i].first == n - 1) && (p[i].second == 0 || p[i].second == m - 1)) { cout << "No" << endl; return 0; } if (p[i].first == 0) { sm += v[p[i].first][p[i].second]; sm += v[p[i].first + 1][p[i].second]; sm += v[p[i].first][p[i].second - 1]; sm += v[p[i].first][p[i].second + 1]; } else if (p[i].first == n - 1) { sm += v[p[i].first][p[i].second]; sm += v[p[i].first - 1][p[i].second]; sm += v[p[i].first][p[i].second - 1]; sm += v[p[i].first][p[i].second + 1]; } else if (p[i].second == 0) { sm += v[p[i].first][p[i].second]; sm += v[p[i].first + 1][p[i].second]; sm += v[p[i].first - 1][p[i].second]; sm += v[p[i].first][p[i].second + 1]; } else if (p[i].second == m - 1) { sm += v[p[i].first][p[i].second]; sm += v[p[i].first + 1][p[i].second]; sm += v[p[i].first - 1][p[i].second]; sm += v[p[i].first][p[i].second - 1]; } else { sm += v[p[i].first][p[i].second]; sm += v[p[i].first + 1][p[i].second]; sm += v[p[i].first - 1][p[i].second]; sm += v[p[i].first][p[i].second - 1]; sm += v[p[i].first][p[i].second + 1]; sm -= min({ v[p[i].first][p[i].second],v[p[i].first + 1][p[i].second],v[p[i].first - 1][p[i].second],v[p[i].first][p[i].second - 1],v[p[i].first][p[i].second + 1] }); } } cout << sm << endl; return 0; }
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