Submission #77920

#TimeUsernameProblemLanguageResultExecution timeMemory
77920Just_Solve_The_ProblemWerewolf (IOI18_werewolf)C++11
0 / 100
1227 ms145964 KiB
#include <bits/stdc++.h> #include "werewolf.h" // #include "grader.cpp" #define pb push_back #define pii pair < int, int > #define fr first #define sc second #define mk make_pair #define okk puts("OK"); using namespace std; const int smallN = (int)6e3 + 7; const int N = (int)2e5 + 7; int was[smallN]; int used[smallN]; vector < int > gr[N]; int l, r; int n; void dfs1(int v, int pr) { was[v]++; used[v] = 1; for (int to : gr[v]) { if (!used[to] && to >= l) dfs1(to, v); } } void dfs2(int v, int pr) { was[v]++; used[v] = 1; for (int to : gr[v]) { if (!used[to] && to <= r) dfs2(to, v); } } vector < int > subtask12(int &N, vector < int > &X, vector < int > &Y, vector < int > &S, vector < int > &E, vector < int > &L, vector < int > &R) { n = N; for (int i = 0; i < (int)X.size(); i++) { gr[X[i]].pb(Y[i]); gr[Y[i]].pb(X[i]); } vector < int > ans; int q = S.size(); for (int i = 0; i < q; i++) { l = L[i]; r = R[i]; memset(was, 0, sizeof was); dfs1(S[i], S[i]); memset(used, 0, sizeof used); dfs2(E[i], E[i]); memset(used, 0, sizeof used); int ok = 1; for (int j = l; j <= r; j++) { if (was[j] == 2) { ans.pb(1); ok = 0; break; } } if (ok) { ans.pb(0); } } return ans; } struct sparse { int table[2][20][N]; /* 0 = min 1 = max */ sparse() { } int numlog[N]; void build(vector < int > &a) { numlog[0] = numlog[1] = 0; int nn = a.size(); for (int i = 2; i < N; i++) { numlog[i] = numlog[i / 2] + 1; } for (int i = 0; i < 20; i++) { for (int j = 0; j < nn; j++) { if (i == 0) { table[0][i][j] = table[1][i][j] = a[j]; } else { table[0][i][j] = min(table[0][i - 1][j], table[0][i - 1][min(j + (1 << (i - 1)), nn - 1)]); table[1][i][j] = max(table[1][i - 1][j], table[1][i - 1][min(j + (1 << (i - 1)), nn - 1)]); } } } } int getmax(int l, int r) { int lg = numlog[r - l + 1]; return max(table[1][lg][l], table[1][lg][r - (1 << lg) + 1]); } int getmin(int l, int r) { int lg = numlog[r - l + 1]; return min(table[0][lg][l], table[0][lg][r - (1 << lg) + 1]); } }; vector < int > ar; vector < int > pos; sparse tb; void dfs3(int v, int pr, int h = 0) { ar[h] = v; for (int to : gr[v]) { if (to != pr) { dfs3(to, v, h + 1); } } } pii getrange1(int v, int lim) { pii ret; ret = mk(v, v); int lo, hi; lo = 1; hi = n + 1; while (hi - lo > 1) { int md = (lo + hi) >> 1; if (tb.getmin(max(0, v - md + 1), v) >= lim) { lo = md; } else { hi = md; } } ret.fr = max(0, v - lo + 1); lo = 1; hi = n + 1; while (hi - lo > 1) { int md = (lo + hi) >> 1; if (tb.getmin(v, min(v + md - 1, n - 1)) >= lim) { lo = md; } else { hi = md; } } ret.sc = min(v + lo - 1, n - 1); return ret; } pii getrange2(int v, int lim) { pii ret; ret = mk(v, v); int lo, hi; lo = 1; hi = n + 1; while (hi - lo > 1) { int md = (lo + hi) >> 1; if (tb.getmax(max(0, v - md + 1), v) <= lim) { lo = md; } else { hi = md; } } ret.fr = max(0, v - lo + 1); lo = 1; hi = n + 1; while (hi - lo > 1) { int md = (lo + hi) >> 1; if (tb.getmax(v, min(v + md - 1, n - 1)) <= lim) { lo = md; } else { hi = md; } } ret.sc = min(v + lo - 1, n - 1); return ret; } vector < int > subtask3(int &N, vector < int > &X, vector < int > &Y, vector < int > &S, vector < int > &E, vector < int > &L, vector < int > &R) { n = N; int m = X.size(); ar.resize(n); pos.resize(n); vector < int > ans; for (int i = 0; i < m; i++) { gr[X[i]].pb(Y[i]); gr[Y[i]].pb(X[i]); } for (int i = 0; i < n; i++) { if ((int)gr[i].size() == 1) { dfs3(i, i); break; } } tb.build(ar); for (int i = 0; i < n; i++) { pos[ar[i]] = i; } int q = (int)S.size(); ans.resize(q); for (int i = 0; i < q; i++) { int &res = ans[i]; res = 0; pair < int, int > asd1 = getrange1(pos[S[i]], L[i]); pair < int, int > asd2 = getrange2(pos[E[i]], R[i]); if ((pos[S[i]] <= pos[E[i]] && asd1.sc >= asd2.fr) || (pos[E[i]] <= pos[S[i]] && asd2.sc >= asd1.fr)) { res = 1; } } return ans; } struct DSU { int par[N]; DSU() { iota(par, par + N, 0); } int getpar(int x) { return ((par[x] == x) ? x : getpar(par[x])); } }; DSU dsu1, dsu2; struct query { int id, t, x; query() { } query(int _id, int _t, int _x) { id = _id; t = _t; x = _x; } }; vector < query > qq; struct fen { int tree[N]; fen() { memset(tree, 0, sizeof tree); } void upd(int pos) { while (pos < N) { tree[pos]++; pos = pos | (pos + 1); } } int get(int r) { int res = 0; while (r >= 0) { res += tree[r]; r = (r & (r + 1)) - 1; } return res; } }; fen tr; vector < vector < int > > gr1, gr2; int par[2][20][N]; int tiktak; int tin[2][N], tout[2][N]; int pos1[N]; void dfs(vector < vector < int > > &GR, int id, int v, int pr) { par[id][0][v] = pr; for (int i = 1; i < 20; i++) { par[id][i][v] = par[id][i - 1][par[id][i - 1][v]]; } tin[id][v] = ++tiktak; for (int to : GR[v]) { dfs(GR, id, to, v); } tout[id][v] = tiktak; } vector < int > subtask4(int &N, vector < int > &X, vector < int > &Y, vector < int > &S, vector < int > &E, vector < int > &L, vector < int > &R) { n = N; dsu1 = DSU(); dsu2 = DSU(); int m = X.size(); int q = S.size(); vector < int > ans; gr1.resize(n); gr2.resize(n); ans.resize(q); for (int i = 0; i < m; i++) { gr[X[i]].pb(Y[i]); gr[Y[i]].pb(X[i]); } for (int i = n - 1; i >= 0; i--) { for (int to : gr[i]) { if (i > to) continue; int x = dsu1.getpar(i); int y = dsu1.getpar(to); if (x == y) continue; dsu1.par[y] = x; gr1[x].pb(y); } } for (int i = 0; i < n; i++) { for (int to : gr[i]) { if (i < to) continue; int x = dsu2.getpar(i); int y = dsu2.getpar(to); if (x == y) continue; dsu2.par[y] = x; gr2[x].pb(y); } } dfs(gr1, 0, dsu1.getpar(0), dsu1.getpar(0)); tiktak = 0; dfs(gr2, 1, dsu2.getpar(0), dsu2.getpar(0)); for (int i = 0; i < q; i++) { int x = S[i]; int y = E[i]; int l = L[i]; int r = R[i]; for (int j = 19; j >= 0; j--) { if (par[0][j][x] >= l) x = par[0][j][x]; if (par[1][j][y] <= r) y = par[1][j][y]; } // cout << i << ' ' << x << ' ' << y << endl; qq.pb(query(~i, tin[0][x] - 1, y)); qq.pb(query(i, tout[0][x], y)); } sort(qq.begin(), qq.end(), [&](query &a, query &b) { return a.t < b.t; }); // puts("***"); for (int i = 0; i < n; i++) { pos1[tin[0][i] - 1] = tin[1][i]; } int ord = 0; q = (int)qq.size(); /*for (auto to : qq) { cout << to.id << ' ' << to.t << ' ' << to.x << '\n'; } */ for (int i = 0; i < q; i++) { while (ord < qq[i].t) tr.upd(pos1[ord++]); int delta = tr.get(tout[1][qq[i].x]) - tr.get(tin[1][qq[i].x] - 1); if (qq[i].id < 0) { ans[~qq[i].id] -= delta; } else { ans[qq[i].id] += delta; } } for (int i = 0; i < q; i++) { ans[i] = (ans[i] > 0); } return ans; } vector < int > check_validity(int N, vector < int > X, vector < int > Y, vector < int > S, vector < int > E, vector < int > L, vector < int > R) { return subtask4(N, X, Y, S, E, L, R); if (N <= 3000 && (int)X.size() <= 6000 && (int)S.size() <= 3000) { return subtask12(N, X, Y, S, E, L, R); } else if ((int)X.size() == N - 1) { return subtask3(N, X, Y, S, E, L, R); } return subtask4(N, X, Y, S, E, L, R); }
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