2024-05-22 04:48:26 +01:00
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template <typename Info, typename Tag>
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struct HLD {
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2024-05-13 10:08:53 +01:00
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struct node_info {
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int father, depth, hson, size, head, dfn = -1;
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};
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2024-05-22 04:48:26 +01:00
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int n;
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vector<int> seq;
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vector<node_info> info;
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segtree<Info, Tag> tr;
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2024-05-13 10:08:53 +01:00
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// returns: (dfs sequence, node info)
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// node numbering starts from `1`
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// if `dfn(v) == -1`, then node `v` is never accessed.
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2024-05-22 04:48:26 +01:00
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HLD(const vector<vector<int>>& ch, const vector<Info>& init, int root = 0) : n(ch.size() - 1), seq(), info(n + 1), tr(n + 1) {
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2024-05-13 10:08:53 +01:00
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vector<node_info> res(n + 1);
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auto dfs1 = [&] (auto dfs1, int v, int pa) -> void {
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res[v].father = pa;
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res[v].depth = res[pa].depth + 1;
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res[v].size = 1;
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int mx = 0;
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for (auto&& u : ch[v]) {
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if (u == pa) continue;
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dfs1(dfs1, u, v);
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res[v].size += res[u].size;
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if (res[u].size > mx) {
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mx = res[u].size;
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res[v].hson = u;
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}
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}
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};
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dfs1(dfs1, root, root);
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int tm = 0;
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auto dfs2 = [&] (auto dfs2, int v, int head) -> void {
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res[v].dfn = tm++;
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seq.emplace_back(v);
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res[v].head = head;
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if (not res[v].hson) return;
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dfs2(dfs2, res[v].hson, head);
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for (auto&& u : ch[v]) {
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if (u == res[v].father or u == res[v].hson) continue;
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dfs2(dfs2, u, u);
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}
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};
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dfs2(dfs2, root, root);
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2024-05-22 04:48:26 +01:00
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info = res;
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for (int i = 1; i <= n; ++i) {
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tr.set(info[i].dfn, init[i]);
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}
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2024-05-13 10:08:53 +01:00
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}
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2024-05-22 04:48:26 +01:00
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void set(int v, const Info& t) {
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tr.set(info[v].dfn, t);
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}
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void apply(int v, const Tag& t) {
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tr.apply(info[v].dfn, t);
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}
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Info query(int v) {
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return tr.query(info[v].dfn);
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}
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void path_apply(int u, int v, const Tag& t) {
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while (info[u].head != info[v].head) {
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if (info[info[u].head].depth < info[info[v].head].depth) {
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swap(u, v);
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}
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tr.range_apply(info[info[u].head].dfn, info[u].dfn, t);
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}
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if (info[u].depth < info[v].depth) swap(u, v);
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tr.range_apply(info[v].dfn, info[u].dfn);
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}
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Info path_query(int u, int v) {
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Info res;
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while (info[u].head != info[v].head) {
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if (info[info[u].head].depth < info[info[v].head].depth) {
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swap(u, v);
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}
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res = res + tr.range_query(info[info[u].head].dfn, info[u].dfn);
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}
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if (info[u].depth < info[v].depth) swap(u, v);
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res = res + tr.range_query(info[v].dfn, info[u].dfn);
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return res;
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}
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void subtree_apply(int v, const Tag& t) {
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tr.range_apply(info[v].dfn, info[v].dfn + info[v].size - 1, t);
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}
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Info subtree_query(int v) {
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return tr.range_query(info[v].dfn, info[v].dfn + info[v].size - 1);
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}
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};
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