This documentation is automatically generated by online-judge-tools/verification-helper
#include "src/datastructure/toptree.hpp"
struct TTNode {
using NP = TTNode*;
bool rev = false;
array<array<NP, 2>, 2> ch = {}; // tree, light-tree
NP p = nullptr, lt = nullptr;
struct D {
ll cnt = 0, pd = 0, upd = 0, dwd = 0;
// l is parent of r
static D merge_h(const D& l, const D& r) {
return {l.cnt + r.cnt, l.pd + r.pd, l.upd + r.upd + l.pd * r.cnt,
l.dwd + r.dwd + r.pd * l.cnt};
}
// l and r is parallel
static D merge_w(const D& l, const D& r) {
assert(!l.pd && !r.pd && !l.dwd && !r.dwd);
return {l.cnt + r.cnt, 0, l.upd + r.upd, 0};
}
// add parent for r(subtrees)
static D join(const D& l, const D& r) {
assert(l.upd == l.dwd);
return {l.cnt + r.cnt, l.pd, l.upd + r.upd + l.pd * r.cnt,
l.dwd + r.upd + l.pd * r.cnt};
}
D rev() { return D{cnt, pd, dwd, upd}; }
D to_subs() { return D{cnt, 0, upd, 0}; }
};
D single = D(), sub = D(), subs = D();
NP search(ll nw, ll f) {
// search heavy
assert(sub.cnt >= nw);
push();
if (ch[0][1] && ch[0][1]->sub.cnt >= nw) return ch[0][1]->search(nw, f);
if (ch[0][1]) nw -= ch[0][1]->sub.cnt;
if (single.cnt + (lt ? lt->subs.cnt : 0) >= nw) {
if (!lt || lt->subs.cnt < f) return this;
auto q = lt->search_light(f);
if (!q) return this;
return q;
}
nw -= single.cnt;
if (lt) nw -= lt->subs.cnt;
assert(ch[0][0]);
return ch[0][0]->search(nw, f);
}
NP search_light(ll f) {
assert(subs.cnt >= f);
if (sub.cnt >= f) {
return search(f, f);
}
push();
if (ch[1][0] && ch[1][0]->subs.cnt >= f)
return ch[1][0]->search_light(f);
if (ch[1][1] && ch[1][1]->subs.cnt >= f)
return ch[1][1]->search_light(f);
expose();
return nullptr;
}
void init_node(ll cnt, ll d) {
single.cnt = cnt;
single.pd = d;
single.upd = single.dwd = cnt * d;
update();
}
void update_subs() {
subs = sub.to_subs();
if (ch[1][0]) subs = D::merge_w(ch[1][0]->subs, subs);
if (ch[1][1]) subs = D::merge_w(subs, ch[1][1]->subs);
}
void update() {
assert(!rev);
sub = single;
if (lt) sub = D::join(single, lt->subs);
if (ch[0][0]) sub = D::merge_h(ch[0][0]->sub, sub);
if (ch[0][1]) sub = D::merge_h(sub, ch[0][1]->sub);
update_subs();
}
void revdata() {
rev ^= true;
swap(ch[0][0], ch[0][1]); // Important
sub = sub.rev();
update_subs();
}
void push() {
if (rev) {
if (ch[0][0]) ch[0][0]->revdata();
if (ch[0][1]) ch[0][1]->revdata();
rev = false;
}
}
// optimize? : template<int ty>
int pos(int ty) {
if (p) {
if (p->ch[ty][0] == this) return 0;
if (p->ch[ty][1] == this) return 1;
}
return -1;
}
static void con(NP p, NP& cp, NP ch) {
cp = ch;
if (ch) ch->p = p;
}
void rot(int ty) {
int ps = pos(ty);
NP _p = p, q = p->p;
if (ty == 0) {
ch[1] = _p->ch[1];
_p->ch[1].fill(nullptr);
for (auto& x : ch[1])
if (x) x->p = this;
}
con(_p, _p->ch[ty][ps], ch[ty][1 - ps]);
con(this, ch[ty][1 - ps], _p);
_p->update();
update();
p = q;
if (!q) return;
if (q->lt == _p) q->lt = this;
for (auto& v : q->ch)
for (auto& x : v)
if (x == _p) x = this;
q->update();
}
void splay(int ty) {
int ps;
while ((ps = pos(ty)) != -1) {
int pps = p->pos(ty);
if (pps == -1) {
rot(ty);
} else if (ps == pps) {
p->rot(ty);
rot(ty);
} else {
rot(ty);
rot(ty);
}
}
}
void expose() {
supush();
splay(0);
splay(1);
if (NP z = ch[0][1]) {
z->push();
con(z, z->ch[1][1], lt);
lt = z;
ch[0][1] = nullptr;
z->update();
update();
}
NP u = p;
while (u) {
u->splay(0);
u->splay(1);
NP ur = u->lt;
if (auto r = u->ch[0][1]) {
// swap ur, r
r->push();
r->ch[1] = ur->ch[1];
ur->ch[1].fill(nullptr);
for (auto& x : r->ch[1])
if (x) x->p = r;
r->update();
u->lt = r;
} else if (!ur->ch[1][0]) {
// use ur->ch[1][1]
con(u, u->lt, ur->ch[1][1]);
} else {
// use prev(ur) in light-tree
NP q = ur->ch[1][0];
con(u, u->lt, q);
q->push();
while (q->ch[1][1]) {
q = q->ch[1][1];
q->push();
}
q->splay(1);
con(q, q->ch[1][1], ur->ch[1][1]);
q->update();
}
ur->ch[1].fill(nullptr);
ur->update();
u->ch[0][1] = ur;
u->update();
u = u->p;
}
splay(0);
}
void supush() {
if (p) p->supush();
push();
}
void link(NP r) {
evert();
r->expose();
assert(!r->ch[0][1]);
con(r, r->ch[0][1], this);
r->update();
}
void cut() {
expose();
assert(ch[0][0]);
ch[0][0]->p = nullptr;
ch[0][0] = nullptr;
update();
}
void evert() {
expose();
revdata();
expose();
}
};
#line 1 "src/datastructure/toptree.hpp"
struct TTNode {
using NP = TTNode*;
bool rev = false;
array<array<NP, 2>, 2> ch = {}; // tree, light-tree
NP p = nullptr, lt = nullptr;
struct D {
ll cnt = 0, pd = 0, upd = 0, dwd = 0;
// l is parent of r
static D merge_h(const D& l, const D& r) {
return {l.cnt + r.cnt, l.pd + r.pd, l.upd + r.upd + l.pd * r.cnt,
l.dwd + r.dwd + r.pd * l.cnt};
}
// l and r is parallel
static D merge_w(const D& l, const D& r) {
assert(!l.pd && !r.pd && !l.dwd && !r.dwd);
return {l.cnt + r.cnt, 0, l.upd + r.upd, 0};
}
// add parent for r(subtrees)
static D join(const D& l, const D& r) {
assert(l.upd == l.dwd);
return {l.cnt + r.cnt, l.pd, l.upd + r.upd + l.pd * r.cnt,
l.dwd + r.upd + l.pd * r.cnt};
}
D rev() { return D{cnt, pd, dwd, upd}; }
D to_subs() { return D{cnt, 0, upd, 0}; }
};
D single = D(), sub = D(), subs = D();
NP search(ll nw, ll f) {
// search heavy
assert(sub.cnt >= nw);
push();
if (ch[0][1] && ch[0][1]->sub.cnt >= nw) return ch[0][1]->search(nw, f);
if (ch[0][1]) nw -= ch[0][1]->sub.cnt;
if (single.cnt + (lt ? lt->subs.cnt : 0) >= nw) {
if (!lt || lt->subs.cnt < f) return this;
auto q = lt->search_light(f);
if (!q) return this;
return q;
}
nw -= single.cnt;
if (lt) nw -= lt->subs.cnt;
assert(ch[0][0]);
return ch[0][0]->search(nw, f);
}
NP search_light(ll f) {
assert(subs.cnt >= f);
if (sub.cnt >= f) {
return search(f, f);
}
push();
if (ch[1][0] && ch[1][0]->subs.cnt >= f)
return ch[1][0]->search_light(f);
if (ch[1][1] && ch[1][1]->subs.cnt >= f)
return ch[1][1]->search_light(f);
expose();
return nullptr;
}
void init_node(ll cnt, ll d) {
single.cnt = cnt;
single.pd = d;
single.upd = single.dwd = cnt * d;
update();
}
void update_subs() {
subs = sub.to_subs();
if (ch[1][0]) subs = D::merge_w(ch[1][0]->subs, subs);
if (ch[1][1]) subs = D::merge_w(subs, ch[1][1]->subs);
}
void update() {
assert(!rev);
sub = single;
if (lt) sub = D::join(single, lt->subs);
if (ch[0][0]) sub = D::merge_h(ch[0][0]->sub, sub);
if (ch[0][1]) sub = D::merge_h(sub, ch[0][1]->sub);
update_subs();
}
void revdata() {
rev ^= true;
swap(ch[0][0], ch[0][1]); // Important
sub = sub.rev();
update_subs();
}
void push() {
if (rev) {
if (ch[0][0]) ch[0][0]->revdata();
if (ch[0][1]) ch[0][1]->revdata();
rev = false;
}
}
// optimize? : template<int ty>
int pos(int ty) {
if (p) {
if (p->ch[ty][0] == this) return 0;
if (p->ch[ty][1] == this) return 1;
}
return -1;
}
static void con(NP p, NP& cp, NP ch) {
cp = ch;
if (ch) ch->p = p;
}
void rot(int ty) {
int ps = pos(ty);
NP _p = p, q = p->p;
if (ty == 0) {
ch[1] = _p->ch[1];
_p->ch[1].fill(nullptr);
for (auto& x : ch[1])
if (x) x->p = this;
}
con(_p, _p->ch[ty][ps], ch[ty][1 - ps]);
con(this, ch[ty][1 - ps], _p);
_p->update();
update();
p = q;
if (!q) return;
if (q->lt == _p) q->lt = this;
for (auto& v : q->ch)
for (auto& x : v)
if (x == _p) x = this;
q->update();
}
void splay(int ty) {
int ps;
while ((ps = pos(ty)) != -1) {
int pps = p->pos(ty);
if (pps == -1) {
rot(ty);
} else if (ps == pps) {
p->rot(ty);
rot(ty);
} else {
rot(ty);
rot(ty);
}
}
}
void expose() {
supush();
splay(0);
splay(1);
if (NP z = ch[0][1]) {
z->push();
con(z, z->ch[1][1], lt);
lt = z;
ch[0][1] = nullptr;
z->update();
update();
}
NP u = p;
while (u) {
u->splay(0);
u->splay(1);
NP ur = u->lt;
if (auto r = u->ch[0][1]) {
// swap ur, r
r->push();
r->ch[1] = ur->ch[1];
ur->ch[1].fill(nullptr);
for (auto& x : r->ch[1])
if (x) x->p = r;
r->update();
u->lt = r;
} else if (!ur->ch[1][0]) {
// use ur->ch[1][1]
con(u, u->lt, ur->ch[1][1]);
} else {
// use prev(ur) in light-tree
NP q = ur->ch[1][0];
con(u, u->lt, q);
q->push();
while (q->ch[1][1]) {
q = q->ch[1][1];
q->push();
}
q->splay(1);
con(q, q->ch[1][1], ur->ch[1][1]);
q->update();
}
ur->ch[1].fill(nullptr);
ur->update();
u->ch[0][1] = ur;
u->update();
u = u->p;
}
splay(0);
}
void supush() {
if (p) p->supush();
push();
}
void link(NP r) {
evert();
r->expose();
assert(!r->ch[0][1]);
con(r, r->ch[0][1], this);
r->update();
}
void cut() {
expose();
assert(ch[0][0]);
ch[0][0]->p = nullptr;
ch[0][0] = nullptr;
update();
}
void evert() {
expose();
revdata();
expose();
}
};