這是一道比樹鏈剖分板子還板子的題目,
操作:
我們將以下面的形式來要求你對這棵樹完成一些操作:
CHANGE u t:把節點 \(u\) 權值改為 \(t\);QMAX u v:詢問點 \(u\) 到點 \(v\) 路徑上的節點的最大權值;QSUM u v:詢問點 \(u\) 到點 \(v\) 路徑上的節點的權值和,
注意:從點 \(u\) 到點 \(v\) 路徑上的節點包括 \(u\) 和 \(v\) 本身,
顯然,這是一道樹鏈剖分的題目,對于樹的操作考慮線段樹,
對于操作一,單點修改,我們不需要懶標記,
對于操作二,維護區間最大值即可,
對于操作三,維護區間和即可,
代碼:
#include<cstdlib>
#include<cstring>
#include<cstdio>
#include<cctype>
typedef long long LL;
typedef unsigned long long ULL;
namespace FastIo{
typedef __uint128_t L;
static char buf[100000],*p1=buf,*p2=buf,fw[100000],*pw=fw;
#define gc p1==p2&&(p2=(p1=buf)+fread(buf,1,100000,stdin),p1==p2)?EOF:*p1++
inline void pc(const char &ch){
if(pw-fw==100000)fwrite(fw,1,100000,stdout),pw=fw;
*pw++=ch;
}
#define fsh fwrite(fw,1,pw-fw,stdout),pw=fw
struct FastMod{
FastMod(ULL b):b(b),m(ULL((L(1)<<64)/b)){}
ULL reduce(ULL a){
ULL q=(ULL)((L(m)*a)>>64);
ULL r=a-q*b;
return r>=b?r-b:r;
}
ULL b,m;
}HPOP(10);
struct QIO{
char ch;
int st[40];
bool pd;
inline int read(){
ch=gc;
while(ch>'Z'||ch<'A')ch=gc;
if(ch=='C')return 1;
ch=gc;
if(ch=='S')return 2;
return 3;
}
inline void read(int &x){
x=0,ch=gc,pd=false;
while(!isdigit(ch)){pd=ch=='-'?true:false;ch=gc;}
while(isdigit(ch)){x=(x<<3)+(x<<1)+(ch^48);ch=gc;}
if(pd)x=-x;
}
inline int write(int a){
if(a<0)a=-a,pc('-');
do{st[++st[0]]=HPOP.reduce(a);a/=10;}while(a);
while(st[0])pc(st[st[0]--]^48);
pc('\n');
}
}qrw;
}
using namespace FastIo;
#include<algorithm>
#define P(A) A=-~A
#define NUMBER1 30000
#define tt for(register int i=head[u];~i;i=e[i].next)
#define fione(begin,end) for(register int i=begin;i<=end;P(i))
#define inf 0x7f7f7f7f
#define ls(a) a<<1
#define rs(a) a<<1|1
#define mid (l+r>>1)
#define lson l,mid,ls(rt)
#define rson mid+1,r,rs(rt)
struct Segment{
inline void push_up(const int &rt){tree[rt]=tree[ls(rt)]+tree[rs(rt)],mx[rt]=std::max(mx[ls(rt)],mx[rs(rt)]);}
void build(int l,int r,int rt,int *a){
if(l==r)return tree[rt]=mx[rt]=a[l],void();
build(lson,a);build(rson,a);
push_up(rt);
}
void one_change(int l,int r,int rt,int p,int date){
if(l==r)return tree[rt]=mx[rt]=date,void();
if(p<=mid)one_change(lson,p,date);
else one_change(rson,p,date);
push_up(rt);
}
int intervalsum(int l,int r,int rt,int x,int y){
if(x<=l&&r<=y)return tree[rt];
int res(0);
if(x<=mid)res+=intervalsum(lson,x,y);
if(mid<y)res+=intervalsum(rson,x,y);
push_up(rt);
return res;
}
int intervalmax(int l,int r,int rt,int x,int y){
if(x<=l&&r<=y)return mx[rt];
int res(-inf);
if(x<=mid)res=std::max(res,intervalmax(lson,x,y));
if(mid<y)res=std::max(res,intervalmax(rson,x,y));
push_up(rt);
return res;
}
int tree[(NUMBER1<<2)+5],mx[(NUMBER1<<1)+5];
}seg;
struct EDGE{int next,to;}e[(NUMBER1<<2)+5];
int head[NUMBER1+5],tot(0),id[NUMBER1+5],top[NUMBER1+5],son[NUMBER1+5],size[NUMBER1+5],depth[NUMBER1+5],n,cnt(0),a[NUMBER1+5],b[NUMBER1+5],fa[NUMBER1+5];
inline void add(const int &u,const int &v){e[++tot].next=head[u];head[u]=tot,e[tot].to=v;}
void dfs1(int u,int fath,int deep){
depth[u]=deep,fa[u]=fath,size[u]=1;
int ms(-1);
tt{
if(e[i].to==fath)continue;
dfs1(e[i].to,u,deep+1);
size[u]+=size[e[i].to];
if(size[e[i].to]>ms)ms=size[e[i].to],son[u]=e[i].to;
}
}
void dfs2(int u,int tf){
id[u]=++cnt;
b[cnt]=a[u],top[u]=tf;
if(!son[u])return;
dfs2(son[u],tf);
tt{
if(e[i].to==fa[u]||e[i].to==son[u])continue;
dfs2(e[i].to,e[i].to);
}
}
inline int treesum(int x,int y){
int ans(0);
while(top[x]!=top[y]){
if(depth[top[x]]<depth[top[y]])std::swap(x,y);
ans+=seg.intervalsum(1,n,1,id[top[x]],id[x]);
x=fa[top[x]];
}
if(depth[x]>depth[y])std::swap(x,y);
ans+=seg.intervalsum(1,n,1,id[x],id[y]);
return ans;
}
inline int treemax(int x,int y){
int ans(-inf);
while(top[x]!=top[y]){
if(depth[top[x]]<depth[top[y]])std::swap(x,y);
ans=std::max(ans,seg.intervalmax(1,n,1,id[top[x]],id[x]));
x=fa[top[x]];
}
if(depth[x]>depth[y])std::swap(x,y);
ans=std::max(ans,seg.intervalmax(1,n,1,id[x],id[y]));
return ans;
}
signed main(){
memset(head,-1,sizeof(head));
int m,x,y,k;
qrw.read(n);
fione(1,n-1){
qrw.read(x);qrw.read(y);
add(x,y);add(y,x);
}
fione(1,n)qrw.read(a[i]);
dfs1(1,0,1);
dfs2(1,1);
seg.build(1,n,1,b);
qrw.read(m);
while(m--){
k=qrw.read();
qrw.read(x);
qrw.read(y);
switch(k){
case 1:seg.one_change(1,n,1,id[x],y);break;
case 2:qrw.write(treesum(x,y));break;
case 3:qrw.write(treemax(x,y));break;
}
}
fsh;
exit(0);
return 0;
}
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