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OI-codes/BZOJ/2001/2001.cpp

313 lines
5.9 KiB
C++

#include <iostream>
#include <algorithm>
#include <queue>
#include <stack>
#include <tuple>
#include <utility>
#include <vector>
using std::cin;
using std::cout;
const char endl = '\n';
const int N = 1.5e5 + 5;
int n, m, q, cnt, qr[N], lst[N];
long long res, w[N];
std::tuple<int, int, long long> edges[N];
std::vector<long long> ans;
class LinkCutTree {
private:
struct node {
size_t l, r, f;
int m;
bool rev;
node(const int &_p = 0, const size_t &_f = 0)
: l(0), r(0), f(_f), m(_p), rev(false) {}
size_t &child(unsigned x) {
return !x ? l : r;
}
} tr[N];
inline void pushup(size_t u) {
tr[u].m = u;
if (tr[u].l && w[tr[tr[u].l].m] > w[tr[u].m])
tr[u].m = tr[tr[u].l].m;
if (tr[u].r && w[tr[tr[u].r].m] > w[tr[u].m])
tr[u].m = tr[tr[u].r].m;
}
inline void pushdown(const size_t &u) {
if (!tr[u].rev) return;
std::swap(tr[u].l, tr[u].r);
tr[tr[u].l].rev = !tr[tr[u].l].rev;
tr[tr[u].r].rev = !tr[tr[u].r].rev;
tr[u].rev = false;
}
unsigned relation(const size_t &u) {
return u == tr[tr[u].f].l ? 0 : 1;
}
bool isRoot(const size_t &u) {
return tr[tr[u].f].l != u && tr[tr[u].f].r != u;
}
void rotate(size_t u) {
size_t p = tr[u].f;
unsigned x = relation(u);
if (!isRoot(p)) {
tr[tr[p].f].child(relation(p)) = u;
}
tr[u].f = tr[p].f;
if (tr[u].child(x ^ 1)) {
tr[tr[u].child(x ^ 1)].f = p;
}
tr[p].child(x) = tr[u].child(x ^ 1);
tr[u].child(x ^ 1) = p;
tr[p].f = u;
pushup(p);
pushup(u);
}
void splay(size_t u) {
std::stack<size_t> st;
size_t cur = u;
st.push(cur);
while (!isRoot(cur)) {
st.push(tr[cur].f);
cur = tr[cur].f;
}
while (!st.empty()) {
pushdown(st.top());
st.pop();
}
while (!isRoot(u)) {
if (isRoot(tr[u].f)) {
rotate(u);
} else if (relation(u) == relation(tr[u].f)) {
rotate(tr[u].f);
rotate(u);
} else {
rotate(u);
rotate(u);
}
}
}
void access(size_t u) {
for (size_t f = 0; u; u = tr[f = u].f) {
splay(u);
tr[u].r = f;
pushup(u);
}
}
void makeRoot(const size_t &u) {
access(u);
splay(u);
tr[u].rev = !tr[u].rev;
}
size_t findRoot(size_t u) {
access(u);
splay(u);
while (tr[u].l) {
u = tr[u].l;
}
return u;
}
void split(const size_t &x, const size_t &y) {
makeRoot(x);
access(y);
splay(y);
}
public:
bool check(int x, int y) {
return findRoot(x) == findRoot(y);
}
void set(int p, int v) {
tr[p].m = v;
}
unsigned query(int x, int y) {
split(x, y);
return tr[y].m;
}
void link(const int &x, const int &y) {
makeRoot(x);
if (findRoot(y) != x) {
tr[x].f = y;
}
}
void cut(int x, int y) {
split(x, y);
if (tr[y].l == x) {
tr[y].l = 0;
tr[x].f = 0;
}
}
} lct;
struct node {
int l, r;
std::vector<int> vec;
} tr[N << 2];
void build(int u, int l, int r) {
tr[u].l = l;
tr[u].r = r;
if (l == r) return;
int mid = (l + r) >> 1;
build(u << 1, l, mid);
build(u << 1 | 1, mid + 1, r);
}
void insert(int u, int l, int r, int id) {
if (l <= tr[u].l && tr[u].r <= r) {
tr[u].vec.emplace_back(id);
return;
}
int mid = (tr[u].l + tr[u].r) >> 1;
if (l <= mid) insert(u << 1, l, r, id);
if (r > mid) insert(u << 1 | 1, l, r, id);
}
void solve(int u) {
std::stack<std::pair<int, bool>> st;
for (int id : tr[u].vec) {
int x, y;
long long w;
std::tie(x, y, w) = edges[id];
if (lct.check(x, y)) {
int id2 = lct.query(x, y) - n,
x2, y2;
long long w2;
std::tie(x2, y2, w2) = edges[id2];
if (w2 <= w) continue;
lct.cut(x2, id2 + n);
lct.cut(id2 + n, y2);
st.emplace(id2, true);
res -= w2;
}
lct.link(x, id + n);
lct.link(id + n, y);
st.emplace(id, false);
res += w;
}
if (tr[u].l == tr[u].r) {
ans.emplace_back(res);
} else {
solve(u << 1);
solve(u << 1 | 1);
}
while (!st.empty()) {
int id;
bool type;
std::tie(id, type) = st.top();
st.pop();
int x, y;
long long w;
std::tie(x, y, w) = edges[id];
if (type) {
lct.link(x, id + n);
lct.link(id + n, y);
res += w;
} else {
lct.cut(x, id + n);
lct.cut(id + n, y);
res -= w;
}
}
}
int main() {
std::ios::sync_with_stdio(false);
cin.tie(nullptr);
cin >> n >> m >> q;
for (int i = 1; i <= m; i++) {
int x, y;
long long z;
cin >> x >> y >> z;
w[n + (++cnt)] = z;
edges[cnt] = {x, y, z};
lst[i] = q + 1;
}
for (int i = 1; i <= q; i++) {
int k;
long long d;
cin >> k >> d;
qr[i] = k;
w[n + (++cnt)] = d;
edges[cnt] = {std::get<0>(edges[k]), std::get<1>(edges[k]), d};
}
build(1, 1, q);
for (int i = q; i; i--) {
insert(1, i, lst[qr[i]] - 1, m + i);
lst[qr[i]] = i;
}
for (int i = 1; i <= m; i++) {
if (lst[i] > 1) {
insert(1, 1, lst[i] - 1, i);
}
}
solve(1);
for (auto x : ans) cout << x << endl;
return 0;
}