考虑暴力树剖。那么修改路径和查询子树最小值非常简单。
对于换根当然不能真的给他转一下,我们只记录当前根是哪个。对于查询,如果查询点不在当前根到原根的路径上,显然换根是对答案没有影响的;如果是当前根,答案就是整棵树最小值,否则即是要查询该路径上的后代所在子树外的点的最小值,去掉这段区间就可以了。
#include<iostream> #include<cstdio> #include<cmath> #include<cstdlib> #include<cstring> #include<algorithm> using namespace std; #define N 100010 #define int unsigned int #define inf 2147483649 int read() { int x=0,f=1;char c=getchar(); while (c<'0'||c>'9') {if (c=='-') f=-1;c=getchar();} while (c>='0'&&c<='9') x=(x<<1)+(x<<3)+(c^48),c=getchar(); return x*f; } int n,m,root,p[N],a[N],t=0,cnt=0; int dfn[N],id[N],fa[N],son[N],deep[N],size[N],top[N]; int L[N<<2],R[N<<2],tree[N<<2],lazy[N<<2]; struct data{int to,nxt; }edge[N<<1]; void addedge(int x,int y){t++;edge[t].to=y,edge[t].nxt=p[x],p[x]=t;} void dfs1(int k) { size[k]=1; for (int i=p[k];i;i=edge[i].nxt) if (edge[i].to!=fa[k]) { deep[edge[i].to]=deep[k]+1; fa[edge[i].to]=k; dfs1(edge[i].to); size[k]+=size[edge[i].to]; if (size[edge[i].to]>size[son[k]]) son[k]=edge[i].to; } } void dfs2(int k,int from) { id[k]=++cnt;dfn[cnt]=k; top[k]=from; if (son[k]) dfs2(son[k],from); for (int i=p[k];i;i=edge[i].nxt) if (edge[i].to!=fa[k]&&edge[i].to!=son[k]) dfs2(edge[i].to,edge[i].to); } void build(int k,int l,int r) { L[k]=l,R[k]=r; if (l==r) {tree[k]=a[dfn[l]];return;} int mid=l+r>>1; build(k<<1,l,mid); build(k<<1|1,mid+1,r); tree[k]=min(tree[k<<1],tree[k<<1|1]); } void down(int k) { tree[k<<1]=tree[k<<1|1]=lazy[k]; lazy[k<<1]=lazy[k<<1|1]=lazy[k]; lazy[k]=0; } void up(int k){tree[k]=min(tree[k<<1],tree[k<<1|1]);} int query(int k,int l,int r) { if (l>r) return inf; if (L[k]==l&&R[k]==r) return tree[k]; if (lazy[k]) down(k); int mid=L[k]+R[k]>>1; if (r<=mid) return query(k<<1,l,r); else if (l>mid) return query(k<<1|1,l,r); else return min(query(k<<1,l,mid),query(k<<1|1,mid+1,r)); } void modify(int k,int l,int r,int x) { if (L[k]==l&&R[k]==r) {tree[k]=lazy[k]=x;return;} if (lazy[k]) down(k); int mid=L[k]+R[k]>>1; if (r<=mid) modify(k<<1,l,r,x); else if (l>mid) modify(k<<1|1,l,r,x); else modify(k<<1,l,mid,x),modify(k<<1|1,mid+1,r,x); up(k); } void jump_modify(int x,int y,int z) { while (top[x]!=top[y]) { if (deep[top[x]]<deep[top[y]]) swap(x,y); modify(1,id[top[x]],id[x],z); x=fa[top[x]]; } if (deep[x]<deep[y]) swap(x,y); modify(1,id[y],id[x],z); } int getans(int k) { if (k==root) return query(1,1,n); int x=k,y=root; while (top[x]!=top[y]) { if (deep[top[x]]<deep[top[y]]) swap(x,y); x=fa[top[x]]; } if (deep[x]<deep[y]) swap(x,y); if (k==y) { for (int i=p[k];i;i=edge[i].nxt) if (id[edge[i].to]<=id[root]&&id[root]<=id[edge[i].to]+size[edge[i].to]-1) return min(query(1,1,id[edge[i].to]-1),query(1,id[edge[i].to]+size[edge[i].to],n)); } else return query(1,id[k],id[k]+size[k]-1); } signed main() { #ifndef ONLINE_JUDGE freopen("bzoj3083.in","r",stdin); freopen("bzoj3083.out","w",stdout); const char LL[]="%I64d "; #else const char LL[]="%lld "; #endif n=read(),m=read(); for (int i=1;i<n;i++) { int x=read(),y=read(); addedge(x,y),addedge(y,x); } for (int i=1;i<=n;i++) a[i]=read(); dfs1(1); dfs2(1,1); build(1,1,n); root=read(); while (m--) { int op=read(); if (op==1) root=read(); else if (op==3) printf("%d ",getans(read())); else { int x=read(),y=read(),z=read(); jump_modify(x,y,z); } } return 0; }