This submission is migrated from previous version of oj.uz, which used different machine for grading. This submission may have different result if resubmitted.
//#pragma GCC optimize ("O3")
#include <bits/stdc++.h>
using namespace std;
typedef long long ll;
#define endl '\n'
int n,m,q;
const int DIM = 1E5+7;
const int INF = 2E9;
struct node{
int u,v,w;
} edges[DIM],Q[DIM];
int P[DIM];
inline int F(int x){
return x==P[x]?x:P[x] = F(P[x]);
}
void solve(){
for(int i = 1;i<=q;++i){
int type = Q[i].u;
if (type==1){
int pos,w;
pos = Q[i].v,w = Q[i].w;
edges[pos].w = w;
continue;
}
int st,w;
st = Q[i].v,w = Q[i].w;
for(int j = 1;j<=n;++j)
P[j] = j;
for(int j = 1;j<=m;++j){
if (edges[j].w>=w)
P[F(edges[j].u)] = F(edges[j].v);
}
int res = 0;
for(int j = 1;j<=n;++j)
res+=(F(j)==F(st));
cout<<res<<endl;
}
}
int T[DIM*4];
void buildtree(int t,int tl,int tr){
if (tl==tr){
T[t] = edges[tl].w;
return;
}
int tm = (tl+tr)/2;
buildtree(t*2+1,tl,tm);
buildtree(t*2+2,tm+1,tr);
T[t] = min(T[t*2+1],T[t*2+2]);
}
int find_L(int t,int tl,int tr,int l,int r,int w){
if (tl>r || l>tr)
return tl;
if (l<=tl && tr<=r && T[t]>=w)
return tl;
if (tl==tr)
return INF;
int tm = (tl+tr)/2;
int ret = find_L(t*2+2,tm+1,tr,l,r,w);
if (ret==tm+1)
return min(ret,find_L(t*2+1,tl,tm,l,r,w));
return ret;
}
int find_R(int t,int tl,int tr,int l,int r,int w){
if (tl>r || l>tr)
return tr;
if (l<=tl && tr<=r && T[t]>=w)
return tr;
if (tl==tr)
return -1;
int tm = (tl+tr)/2;
int ret = find_R(t*2+1,tl,tm,l,r,w);
if (ret==tm)
return max(find_R(t*2+2,tm+1,tr,l,r,w),ret);
return ret;
}
void update(int t,int tl,int tr,int pos,int val){
if (tl>pos || tr<pos)
return;
if (tl==tr){
T[t] = val;
return;
}
int tm = (tl+tr)/2;
update(t*2+1,tl,tm,pos,val);
update(t*2+2,tm+1,tr,pos,val);
T[t] = min(T[t*2+1],T[t*2+2]);
}
void solve1(){
buildtree(0,1,m);
for(int i = 1;i<=q;++i){
int type = Q[i].u;
if (type==1){
update(0,1,m,Q[i].v,Q[i].w);
}
else{
int w = Q[i].w,st = Q[i].v;
int l = INF,r = 0;
if (st>1)
l = find_L(0,1,m,1,st-1,w);
if (st<n)
r = find_R(0,1,m,st,m,w)+1;
if (l>st)
l = st;
if (r<st)
r = st;
cout<<r-l+1<<endl;
}
}
}
bool mc(node &a,node &b){
return a.w>b.w;
}
int ans[DIM],cnt[DIM];
void solve2(){
sort(edges+1,edges+1+m,mc);
for(int i = 1;i<=q;++i){
Q[i].u = i;
}
for(int i = 1;i<=n;++i)
P[i] = i,cnt[i] = 1;
sort(Q+1,Q+1+q,mc);
int ptr = 0;
for(int i = 1;i<=q;++i){
while(ptr<m && edges[ptr+1].w>=Q[i].w){
++ptr;
if (F(edges[ptr].v)!=F(edges[ptr].u)) {
cnt[F(edges[ptr].v)] += cnt[F(edges[ptr].u)];
P[F(edges[ptr].u)] = F(edges[ptr].v);
}
}
ans[Q[i].u] = cnt[F(Q[i].v)];
}
for(int i = 1;i<=q;++i)
cout<<ans[i]<<endl;
}
int main() {
ios_base::sync_with_stdio(0);
cin.tie(0);
cout.tie(0);
cin>>n>>m;
ll flag = 0;
if (n-1!=m || m==0)
flag = 1;
for(int i = 1;i<=m;++i){
cin>>edges[i].u>>edges[i].v>>edges[i].w;
if (edges[i].u!=edges[i].v-1 || edges[i].u!=i)
flag = 1;
}
cin>>q;
for(int i = 1;i<=q;++i){
cin>>Q[i].u>>Q[i].v>>Q[i].w;
}
if (m==0 || (n<=1000 && m<=1000 && q<=10000))
solve();
else if (flag==0)
solve1();
else solve2();
return 0;
}
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