URAL 题目1553. Caves and Tunnels（Link Cut Tree 修改点权，求两点之间最大）

1553. Caves and Tunnels

Time limit: 3.0 second

Memory limit: 64 MB

After landing on Mars surface, scientists found a strange system of caves connected by tunnels. So they began to research it using remote controlled robots. It was found out that there exists exactly
one route between every pair of caves. But then scientists faced a particular problem. Sometimes in the caves faint explosions happen. They cause emission of radioactive isotopes and increase radiation level in the cave. Unfortunately robots don‘t stand radiation
well. But for the research purposes they must travel from one cave to another. So scientists placed sensors in every cave to monitor radiation level in the caves. And now every time they move robots they want to know the maximal radiation level the robot will
have to face during its relocation. So they asked you to write a program that will solve their problem.

Input

The first line of the input contains one integer N (1 ≤ N ≤ 100000) — the number of caves. NextN ? 1 lines describe tunnels. Each of these lines contains a pair of integers ai, bi(1 ≤ ai, bi ≤ N)
specifying the numbers of the caves connected by corresponding tunnel. The next line has an integer Q (Q ≤ 100000) representing the number of queries. The Q queries follow on a single line each. Every query has a form of "C U V",
where C is a single character and can be either ‘I‘ or ‘G‘ representing the type of the query (quotes for clarity only). In the case of an ‘I‘ query radiation level in U-th cave (1 ≤ U ≤ N) is incremented by V (0 ≤ V ≤ 10000).
In the case of a ‘G‘ query your program must output the maximal level of radiation on the way between caves with numbers U and V (1 ≤ U, V ≤ N) after all increases of radiation (‘I‘ queries) specified before current
query. It is assumed that initially radiation level is 0 in all caves, and it never decreases with time (because isotopes‘ half-life time is much larger than the time of observations).

Output

For every ‘G‘ query output one line containing the maximal radiation level by itself.

Sample

4
1 2
2 3
2 4
6
I 1 1
G 1 1
G 3 4
I 2 3
G 1 1
G 3 4

1
0
1
3

Problem Source: Novosibirsk SU Contest. Petrozavodsk training camp, September 2007

Tags: data structures  (

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瞬秒~~

题目大意：一棵树，开始每个点权的权值为0，后边q次操作，I a b,a点点权加b，G a b查询从a到b要走的最大的权值

ac代码

#include<stdio.h>
#include<string.h>
#include<queue>
#include<iostream>
#define INF 0x7fffffff
#define max(a,b) (a>b?a:b)
using namespace std;
int vis[100050];
struct LCT
{
    int bef[100050],pre[100050],next[100050][2],key[100050],val[100050];
    void init()
    {
        memset(pre,0,sizeof(pre));
        memset(next,0,sizeof(next));
		memset(key,0,sizeof(key));
        val[0]=-INF;
    }
    void pushup(int x)
    {
        val[x]=max(key[x],max(val[next[x][1]],val[next[x][0]]));
    }
    void rotate(int x,int kind)
    {
        int y,z;
        y=pre[x];
        z=pre[y];
        next[y][!kind]=next[x][kind];
        pre[next[x][kind]]=y;
        next[z][next[z][1]==y]=x;
        pre[x]=z;
        next[x][kind]=y;
        pre[y]=x;
        pushup(y);
    }
    void splay(int x)
    {
        int rt;
        for(rt=x;pre[rt];rt=pre[rt]);
        if(x!=rt)
        {
            bef[x]=bef[rt];
            bef[rt]=0;
            while(pre[x])
            {
                if(next[pre[x]][0]==x)
                {
                    rotate(x,1);
                }
                else
                    rotate(x,0);
            }
            pushup(x);
        }
    }
    void access(int x)
    {
        int fa;
        for(fa=0;x;x=bef[x])
        {
            splay(x);
            pre[next[x][1]]=0;
            bef[next[x][1]]=x;
            next[x][1]=fa;
            pre[fa]=x;
            bef[fa]=0;
            fa=x;
            pushup(x);
        }
    }
    void change(int x,int y)
    {
        key[x]+=y;
        splay(x);
    }
    int query(int x,int y)
    {
        access(y);
        for(y=0;x;x=bef[x])
        {
            splay(x);
            if(!bef[x])
            {
                  return max(key[x],max(val[next[x][1]],val[y]));
            }
            pre[next[x][1]]=0;
            bef[next[x][1]]=x;
            next[x][1]=y;
            pre[y]=x;
            bef[y]=0;
            y=x;
            pushup(x);
        }
        return 0;
    }
}lct;
struct s
{
    int u,v,next;
}edge[200020<<1];
int head[200020],cnt;
void add(int u,int v)
{
    edge[cnt].u=u;
    edge[cnt].v=v;
    edge[cnt].next=head[u];
    head[u]=cnt++;
}
void bfs(int u)
{
    queue<int>q;
    memset(vis,0,sizeof(vis));
    vis[u]=1;
    q.push(u);
    while(!q.empty())
    {
        u=q.front();
        q.pop();
        for(int i=head[u];i!=-1;i=edge[i].next)
        {
            int v=edge[i].v;
            if(!vis[v])
            {
                lct.bef[v]=u;
                vis[v]=1;
                q.push(v);
            }
        }
    }
}
int main()
{
	int n;
	while(scanf("%d",&n)!=EOF)
	{
		int i=1;
		memset(head,-1,sizeof(head));
		cnt=0;
		for(i=1;i<n;i++)
		{
			int u,v;
			scanf("%d%d",&u,&v);
			add(u,v);
			add(v,u);
		}
		int q;
		scanf("%d",&q);
		lct.init();
		bfs(1);
		while(q--)
		{
			char str[2];
			int u,v;
			scanf("%s%d%d",str,&u,&v);
			if(str[0]=='I')
				lct.change(u,v);
			else
				printf("%d\n",lct.query(u,v));
		}
	}
}

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