![bzoj 2816: [ZJOI2012]网络 (LCT 建多棵树)](https://image.shishitao.com:8440/aHR0cHM6Ly9ia3FzaW1nLmlrYWZhbi5jb20vdXBsb2FkL2NoYXRncHQtcy5wbmc%2FIQ%3D%3D.png?!?w=700&webp=1 "bzoj 2816: [ZJOI2012]网络 (LCT 建多棵树)")
链接:https://www.lydsy.com/JudgeOnline/problem.php?id=2816
题面: http://www.lydsy.com/JudgeOnline/upload/zjoi2012.pdf
思路:
因为c很小,我们可以建c棵树,然后跑LCT。
实现代码:
#include<bits/stdc++.h>
using namespace std;
const int M = 3e5+;
const int inf = 0x3f3f3f3f; struct node{
int u,v;
};
int a[M];
int col[M][];
bool operator < (node a,node b){
if(a.u == b.u) return a.v < b.v;
return a.u < b.u;
}
map<node,int>mp;
struct lct{
int c[M][],fa[M],val[M],sum[M],rev[M],st[M];
inline void up(int x){
int l = c[x][],r = c[x][];
sum[x] = max(max(sum[l],sum[r]),val[x]);
} inline void pushrev(int x){
int t = c[x][];
c[x][] = c[x][]; c[x][] = t;
rev[x] ^= ;
} inline void pushdown(int x){
if(rev[x]){
int l = c[x][],r = c[x][];
if(l) pushrev(l);
if(r) pushrev(r);
rev[x] = ;
}
} inline bool nroot(int x){ //判断一个点是否为一个splay的根
return c[fa[x]][]==x||c[fa[x]][] == x;
} inline void rotate(int x){
int y = fa[x],z = fa[y],k = c[y][] == x;
int w = c[x][!k];
if(nroot(y)) c[z][c[z][]==y]=x;
c[x][!k] = y; c[y][k] = w;
if(w) fa[w] = y; fa[y] = x; fa[x] = z;
up(y);
} inline void splay(int x){
int y = x,z = ;
st[++z] = y;
while(nroot(y)) st[++z] = y = fa[y];
while(z) pushdown(st[z--]);
while(nroot(x)){
y = fa[x];z = fa[y];
if(nroot(y))
rotate((c[y][]==x)^(c[z][]==y)?x:y);
rotate(x);
}
up(x);
} //打通根节点到指定节点的实链,使得一条中序遍历从根开始以指定点结束的splay出现
inline void access(int x){
for(int y = ;x;y = x,x = fa[x])
splay(x),c[x][]=y,up(x);
} inline void makeroot(int x){ //换根,让指定点成为原树的根
access(x); splay(x); pushrev(x);
} inline int findroot(int x){ //寻找x所在原树的树根
access(x); splay(x);
while(c[x][]) pushdown(x),x = c[x][];
splay(x);
return x;
} inline void split(int x,int y){ //拉出x-y的路径成为一个splay
makeroot(x); access(y); splay(y);
} inline void cut(int x,int y){ //断开边
makeroot(x);
if(findroot(y) == x&&fa[y] == x&&!c[y][]){
fa[y] = c[x][] = ;
up(x);
}
} inline void link(int x,int y){ //连接边
makeroot(x);
if(findroot(y)!=x) fa[x] = y;
}
}LCT[];
int main()
{
int n,m,c,k;
scanf("%d%d%d%d",&n,&m,&c,&k);
for(int i = ;i <= n;i ++) scanf("%d",&a[i]);
for(int i = ;i <= n;i ++){
for(int j = ;j <= c;j ++){
LCT[j].val[i] = a[i];
}
}
int u,v,w;
for(int i = ;i <= m;i ++){
scanf("%d%d%d",&u,&v,&w); w++;
mp[(node){u,v}] = w;
mp[(node){v,u}] = w;
col[u][w]++; col[v][w]++;
LCT[w].link(u,v);
}
int op,x,y;
while(k--){
scanf("%d",&op);
if(op == ){
scanf("%d%d",&x,&y); a[x] = y;
for(int i = ;i <= c;i ++){
LCT[i].splay(x);
LCT[i].val[x] = a[x];
}
}
else if(op == ){
scanf("%d%d%d",&u,&v,&w); w++;
int f = mp[(node){u,v}];
if(!f) {
printf("No such edge.\n");
continue;
}
if(f == w){
printf("Success.\n");
continue;
}
if(col[u][w]>||col[v][w]>){
printf("Error 1.\n"); continue;
}
if(LCT[w].findroot(u)==LCT[w].findroot(v)){
printf("Error 2.\n"); continue;
}
col[u][f]--; col[v][f]--;
col[u][w]++; col[v][w]++;
mp[(node){u,v}] = w;
mp[(node){v,u}] = w;
LCT[f].cut(u,v);
LCT[w].link(u,v);
printf("Success.\n");
}
else{
scanf("%d%d%d",&w,&u,&v); w++;
if(LCT[w].findroot(u)!=LCT[w].findroot(v)){
printf("-1\n"); continue;
}
LCT[w].split(u,v);
printf("%d\n",LCT[w].sum[v]);
}
}
}