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lib/tree/euler_tour_tree.hpp
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- Last update: 2026-04-02 20:43:19+09:00
- Include:
#include "lib/tree/euler_tour_tree.hpp"
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#pragma once
#include <cassert>
#include <map>
#include <utility>
#include <vector>
#include "segtree/monoid.hpp"
// Euler Tour Tree
template <class M>
struct euler_tour_tree {
using T = typename M::value_type;
struct node_t {
int u, v;
T val, sum;
int sz;
node_t *par, *l, *r;
node_t(int _u, int _v, const T &_val = M::id())
: u(_u), v(_v), val(_val), sum(_val), sz(u == v ? 1 : 0), par(nullptr), l(nullptr), r(nullptr) {}
};
int n;
std::vector<node_t *> vertex_node;
std::map<std::pair<int, int>, node_t *> edge_node;
euler_tour_tree(int _n) : n(_n) {
vertex_node.resize(n, nullptr);
for (int i = 0; i < n; ++i) vertex_node[i] = new node_t(i, i);
}
euler_tour_tree(const std::vector<T> &v) : n(v.size()) {
vertex_node.resize(n, nullptr);
for (int i = 0; i < n; ++i) vertex_node[i] = new node_t(i, i, v[i]);
}
~euler_tour_tree() {
for (auto nd : vertex_node) delete nd;
for (auto &p : edge_node) delete p.second;
}
void link(int u, int v) {
reroot(u);
reroot(v);
node_t *uv = new node_t(u, v);
node_t *vu = new node_t(v, u);
edge_node[{u, v}] = uv;
edge_node[{v, u}] = vu;
node_t *tu = vertex_node[u];
node_t *tv = vertex_node[v];
splay(tu);
splay(tv);
join(tu, join(uv, join(tv, vu)));
}
void cut(int u, int v) {
node_t *uv = edge_node[{u, v}];
node_t *vu = edge_node[{v, u}];
edge_node.erase({u, v});
edge_node.erase({v, u});
reroot(u);
splay(vu);
node_t *C = vu->r;
node_t *AB_uv = vu->l;
if (C) C->par = nullptr;
if (AB_uv) AB_uv->par = nullptr;
vu->l = vu->r = nullptr;
update(vu);
splay(uv);
node_t *B = uv->r;
node_t *A = uv->l;
if (B) B->par = nullptr;
if (A) A->par = nullptr;
uv->l = uv->r = nullptr;
update(uv);
join(A, C);
delete uv;
delete vu;
}
bool same(int u, int v) { return get_root(vertex_node[u]) == get_root(vertex_node[v]); }
void set(int u, const T &val) {
node_t *nd = vertex_node[u];
splay(nd);
nd->val = val;
update(nd);
}
T get(int u) {
node_t *nd = vertex_node[u];
splay(nd);
return nd->val;
}
T get_subtree(int v, int p = -1) {
if (p == -1 || p == v) {
node_t *nd = vertex_node[v];
splay(nd);
return nd->sum;
}
auto it_pv = edge_node.find({p, v});
assert(it_pv != edge_node.end());
node_t *pv = it_pv->second;
node_t *vp = edge_node[{v, p}];
reroot(p);
splay(vp);
node_t *C = vp->r;
node_t *AB_pv = vp->l;
if (C) C->par = nullptr;
if (AB_pv) AB_pv->par = nullptr;
vp->l = vp->r = nullptr;
update(vp);
splay(pv);
node_t *B = pv->r;
node_t *A = pv->l;
if (B) B->par = nullptr;
if (A) A->par = nullptr;
pv->l = pv->r = nullptr;
update(pv);
T res = B ? B->sum : M::id();
pv->l = A;
if (A) A->par = pv;
pv->r = B;
if (B) B->par = pv;
update(pv);
vp->l = pv;
pv->par = vp;
vp->r = C;
if (C) C->par = vp;
update(vp);
return res;
}
int get_size(int v, int p = -1) {
if (p == -1 || p == v) {
node_t *nd = vertex_node[v];
splay(nd);
return nd->sz;
}
auto it_pv = edge_node.find({p, v});
assert(it_pv != edge_node.end());
node_t *pv = it_pv->second;
node_t *vp = edge_node[{v, p}];
reroot(p);
splay(vp);
node_t *C = vp->r;
node_t *AB_pv = vp->l;
if (C) C->par = nullptr;
if (AB_pv) AB_pv->par = nullptr;
vp->l = vp->r = nullptr;
update(vp);
splay(pv);
node_t *B = pv->r;
node_t *A = pv->l;
if (B) B->par = nullptr;
if (A) A->par = nullptr;
pv->l = pv->r = nullptr;
update(pv);
int res = B ? B->sz : 0;
pv->l = A;
if (A) A->par = pv;
pv->r = B;
if (B) B->par = pv;
update(pv);
vp->l = pv;
pv->par = vp;
vp->r = C;
if (C) C->par = vp;
update(vp);
return res;
}
private:
bool is_root(node_t *t) { return !t->par; }
void update(node_t *t) {
if (!t) return;
t->sum = t->val;
t->sz = (t->u == t->v) ? 1 : 0;
if (t->l) {
t->sum = M::op(t->l->sum, t->sum);
t->sz += t->l->sz;
}
if (t->r) {
t->sum = M::op(t->sum, t->r->sum);
t->sz += t->r->sz;
}
}
void rotate(node_t *t) {
node_t *p = t->par;
node_t *pp = p->par;
if (p->l == t) {
p->l = t->r;
if (t->r) t->r->par = p;
t->r = p;
} else {
p->r = t->l;
if (t->l) t->l->par = p;
t->l = p;
}
p->par = t;
t->par = pp;
if (pp) {
if (pp->l == p) pp->l = t;
else pp->r = t;
}
update(p);
update(t);
}
void splay(node_t *t) {
if (!t) return;
while (!is_root(t)) {
node_t *p = t->par;
if (!is_root(p)) {
node_t *pp = p->par;
if ((pp->l == p) == (p->l == t)) rotate(p);
else rotate(t);
}
rotate(t);
}
}
node_t *join(node_t *l, node_t *r) {
if (!l) return r;
if (!r) return l;
while (l->r) l = l->r;
splay(l);
l->r = r;
r->par = l;
update(l);
return l;
}
void reroot(int v) {
node_t *nd = vertex_node[v];
splay(nd);
node_t *l = nd->l;
if (l) {
l->par = nullptr;
nd->l = nullptr;
update(nd);
join(nd, l);
}
}
node_t *get_root(node_t *t) {
if (!t) return nullptr;
splay(t);
while (t->l) t = t->l;
splay(t);
return t;
}
};
Traceback (most recent call last):
File "/home/runner/.local/lib/python3.12/site-packages/competitive_verifier/oj/resolver.py", line 291, in resolve
bundled_code = language.bundle(path, basedir=basedir)
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
File "/home/runner/.local/lib/python3.12/site-packages/competitive_verifier/oj/verify/languages/cplusplus.py", line 242, in bundle
bundler.update(path)
File "/home/runner/.local/lib/python3.12/site-packages/competitive_verifier/oj/verify/languages/cplusplus_bundle.py", line 479, in update
self._resolve(pathlib.Path(included), included_from=path)
File "/home/runner/.local/lib/python3.12/site-packages/competitive_verifier/oj/verify/languages/cplusplus_bundle.py", line 286, in _resolve
raise BundleErrorAt(path, -1, "no such header")
competitive_verifier.oj.verify.languages.cplusplus_bundle.BundleErrorAt: segtree/monoid.hpp: line -1: no such header