Submission #198055

#TimeUsernameProblemLanguageResultExecution timeMemory
198055QCFiumBridges (APIO19_bridges)C++14
100 / 100
1915 ms13996 KiB
#include <bits/stdc++.h> #ifdef _WIN32 # define getchar_fast _getchar_nolock #else # define getchar_fast getchar_unlocked #endif int ri() { int r = 0, c, s = 0; for (;;) { c = getchar_fast(); if (c == '-') { s = 1; break; } if (c <= '9' && c >= '0') { r = c - '0'; break; } } for (;;) { c = getchar_fast(); if (c < '0' || c > '9') break; r = r * 10 + c - '0'; } if (s) r = -r; return r; } struct UnionFind { std::vector<int> data; std::vector<int> size; std::vector<std::vector<std::pair<int, int> > > hens; UnionFind (int n) : data(n, -1), size(n, 0), hens(n) {} void add_hen(int start, int end, int index) { hens[start].push_back({index, end}); } int root(int i) { return data[i] < 0 ? i : data[i] = root(data[i]); } bool unite(int i, int j) { i = root(i); j = root(j); if (i == j) return false; if (-data[i] + size[i] > -data[j] + size[j]) std::swap(i, j); hens[j].insert(hens[j].end(), hens[i].begin(), hens[i].end()); hens[i].clear(); size[j] += size[i]; data[j] += data[i]; data[i] = j; return true; } int get_size(int i) { return -data[root(i)]; } void clear() { std::fill(data.begin(), data.end(), -1); std::fill(size.begin(), size.end(), 0); for (auto &i : hens) i.clear(); } }; int main() { int n = ri(), m = ri(); struct Hen { int a; int b; int cost; int id; }; std::vector<Hen> hens(m); for (int i = 0; i < m; i++) hens[i].a = ri() - 1, hens[i].b = ri() - 1, hens[i].cost = ri(), hens[i].id = i; struct Query { int type; int index; int cost; int id; }; int q = ri(); std::vector<Query> qs(q); for (int i = 0; i < q; i++) qs[i].type = ri() - 1, qs[i].index = ri() - 1, qs[i].cost = ri(), qs[i].id = i; #define BLOCK 1000 std::vector<bool> changing(m); std::vector<int> cost(m); for (int i = 0; i < m; i++) cost[i] = hens[i].cost; std::vector<bool> used(n); std::vector<int> used_rollback; std::vector<int> res(q); for (int i = 0; i < q; i += BLOCK) { auto hens_copy = hens; std::sort(hens_copy.begin(), hens_copy.end(), [] (auto &i, auto &j) { return i.cost > j.cost; }); std::vector<Query> query, change; for (int j = i; j < q && j < i + BLOCK; j++) { if (!qs[j].type) changing[qs[j].index] = true, change.push_back(qs[j]); else query.push_back(qs[j]); } std::sort(query.begin(), query.end(), [] (auto &i, auto &j) { return i.cost > j.cost; }); static UnionFind uni(n); uni.clear(); for (int j = 0; j < m; j++) if (changing[j]) uni.add_hen(hens[j].a, hens[j].b, j), uni.add_hen(hens[j].b, hens[j].a, j); int head = 0; for (auto j : query) { static std::vector<std::pair<int, int> > rollback; for (auto &k : change) { if (k.id > j.id) break; rollback.push_back({k.index, cost[k.index]}), cost[k.index] = k.cost; } while (head < m && hens_copy[head].cost >= j.cost) { if (!changing[hens_copy[head].id]) uni.unite(hens_copy[head].a, hens_copy[head].b); head++; } auto use = [&] (int i) { used_rollback.push_back(i); used[i] = true; return i; }; std::queue<int> que; que.push(use(uni.root(j.index))); int cur = 0; while (que.size()) { int k = que.front(); que.pop(); cur += -uni.data[k]; for (auto l : uni.hens[k]) { if (cost[l.first] < j.cost) continue; int target = uni.root(l.second); if (!used[target]) { use(target); que.push(target); } } } res[j.id] = cur; for (auto k : used_rollback) used[k] = false; used_rollback.clear(); for (; rollback.size(); rollback.pop_back()) cost[rollback.back().first] = rollback.back().second; } for (auto &j : change) { cost[j.index] = j.cost; hens[j.index].cost = j.cost; changing[j.index] = false; } } for (int i = 0; i < q; i++) if (qs[i].type) printf("%d\n", res[i]); return 0; }
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