Submission #477096

#TimeUsernameProblemLanguageResultExecution timeMemory
477096ymmBridges (APIO19_bridges)C++17
100 / 100
2602 ms9540 KiB
/// /// Yare Yare Daze /// #pragma GCC optimize("Ofast,unroll-loops") #pragma GCC target("avx2") #include <bits/stdc++.h> #define Loop(x,l,r) for(ll x = (l); x < (r); ++x) typedef long long ll; typedef std::pair<int,int> pii; using namespace std; //#ifndef EVAL //void dbg(){cerr << "!\n";} //template<class T, class... U> void dbg(T x, U... y){cerr << x << ' '; dbg(y...);} //#else template<class... T> inline void dbg(T... x){} //#endif const int N = 100010; const int S = 600; int n, m, q; int ep1[N], ep2[N], cur_wt[N], new_wt[N]; int par[N], cmp_size[N]; int qt[N], qa[N], qb[N]; int root(int v){while(par[v] != -1) v = par[v]; return v;} int root_cmp(int v){ int rt = root(v); while(v != rt) { int u = par[v]; par[v] = rt; v = u; } return v; } vector<pii> dsu_rev; void unite(int v, int u) { dbg("unite", v, u); v = root(v); u = root(u); if(v == u) return; if(cmp_size[v] < cmp_size[u]) swap(v, u); par[u] = v; cmp_size[v] += cmp_size[u]; dsu_rev.emplace_back(v, u); } void unite_cmp(int v, int u) { dbg("unitec", v, u); v = root_cmp(v); u = root_cmp(u); if(v == u) return; if(cmp_size[v] < cmp_size[u]) swap(v, u); par[u] = v; cmp_size[v] += cmp_size[u]; } void dsu_reverse() { for(auto it = dsu_rev.end(); it != dsu_rev.begin();) { --it; dbg("rev", it->first, it->second); cmp_size[it->first] -= cmp_size[it->second]; par[it->second] = -1; } dsu_rev.clear(); } void init() { fill(par,par+N,-1); fill(cmp_size,cmp_size+N,1); } void Input() { #ifndef EVAL freopen("in.txt", "r", stdin); #else ios::sync_with_stdio(false); cin.tie(0); #endif mt19937_64 rd; //n=50000;m=100000; cin >> n >> m; Loop(i,0,m) //ep1[i]=rd()%n,ep2[i]=rd()%n,cur_wt[i]=rd(); cin >> ep1[i] >> ep2[i] >> cur_wt[i], ep1[i]--, ep2[i]--; //q=100000; cin >> q; Loop(i,0,q){ cin >> qt[i] >> qa[i] >> qb[i]; qa[i]--; //qt[i] = 2; qa[i] = rand()%n; qb[i] = rand(); } } int ans[N]; void Output() { Loop(i,0,q) if(qt[i] == 2) cout << ans[i] << '\n'; #ifndef EVAL cout << double(clock())/CLOCKS_PER_SEC << '\n'; #endif } bool in_ivl[N]; set<pii, greater<pii>> srt_edge; vector<pii> srt_car; int main() { Input(); Loop(i,0,m) srt_edge.emplace(cur_wt[i], i); for(int l = 0; l < q; l += S) { int r = min(q, l+S); init(); Loop(i,l,r) { if(qt[i] == 1) in_ivl[qa[i]] = 1; else srt_car.emplace_back(qb[i], i); } sort(srt_car.begin(), srt_car.end(), greater<pii>()); auto edge_pnt = srt_edge.begin(); memcpy(new_wt, cur_wt, m*4); for(auto [car_wt, car] : srt_car) { dbg("test", car, car_wt, edge_pnt->first); while(edge_pnt != srt_edge.end() && edge_pnt->first >= car_wt){ if(!in_ivl[edge_pnt->second]) unite_cmp(ep1[edge_pnt->second], ep2[edge_pnt->second]); edge_pnt++; } Loop(i,l,car) if(qt[i] == 1) new_wt[qa[i]] = qb[i]; Loop(i,l,r) { if(qt[i] == 1) dbg("qt", qa[i], new_wt[qa[i]], car_wt); if(qt[i] == 1 && new_wt[qa[i]] >= car_wt) unite(ep1[qa[i]], ep2[qa[i]]); } ans[car] = cmp_size[root(qa[car])]; dsu_reverse(); Loop(i,l,car) if(qt[i] == 1) new_wt[qa[i]] = cur_wt[qa[i]]; } srt_car.clear(); Loop(i,l,r) if(qt[i] == 1) { int e = qa[i], w = qb[i]; in_ivl[e] = 0; srt_edge.erase({cur_wt[e], e}); cur_wt[e] = w; srt_edge.insert({cur_wt[e], e}); } } Output(); }
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