hdu 3047Zjnu Stadium(并查集)

简介:

Zjnu Stadium

Time Limit: 2000/1000 MS (Java/Others)    Memory Limit: 32768/32768 K (Java/Others)
Total Submission(s): 626    Accepted Submission(s): 261


Problem Description
In 12th Zhejiang College Students Games 2007, there was a new stadium built in Zhejiang Normal University. It was a modern stadium which could hold thousands of people. The audience Seats made a circle. The total number of columns were 300 numbered 1--300, counted clockwise, we assume the number of rows were infinite.
These days, Busoniya want to hold a large-scale theatrical performance in this stadium. There will be N people go there numbered 1--N. Busoniya has Reserved several seats. To make it funny, he makes M requests for these seats: A B X, which means people numbered B must seat clockwise X distance from people numbered A. For example: A is in column 4th and X is 2, then B must in column 6th (6=4+2).
Now your task is to judge weather the request is correct or not. The rule of your judgement is easy: when a new request has conflicts against the foregoing ones then we define it as incorrect, otherwise it is correct. Please find out all the incorrect requests and count them as R.
 

 

Input
There are many test cases:
For every case: 
The first line has two integer N(1<=N<=50,000), M(0<=M<=100,000),separated by a space.
Then M lines follow, each line has 3 integer A(1<=A<=N), B(1<=B<=N), X(0<=X<300) (A!=B), separated by a space.

 

 

Output
For every case: 
Output R, represents the number of incorrect request.
 

 

Sample Input
10 10 1 2 150 3 4 200 1 5 270 2 6 200 6 5 80 4 7 150 8 9 100 4 8 50 1 7 100 9 2 100
 

 

Sample Output
2
Hint
Hint: (PS: the 5th and 10th requests are incorrect)

分析:这是一道比较简单地并查集题目。

(1)弄清题意,找出出现冲突的位置,判断冲突很简单就是当两个人在同一行坐,同时他们到根节点的距离差值正好是他们之间的差值,此时就出现了冲突了。

(2)关键有两个地方,这也是并查集题目的难点,就是压缩集合,和求节点到根的距离。这里压缩集合就很简单了,一个通用的递归。求到跟的距离dist[a] += dist[tem]; dist[rb]=dist[a]+x-dist[b];注意这两行代码,这是核心代码,首先第一行是求出节点a到根的距离。第二行代码使用的是数学中向量计算的原理如图

 

复制代码
#include <iostream>
#include <cstdio>
#include <cstring>
#include <algorithm>
#define MAXNUM 50005

using namespace std;
//father:存储的是节点的父节点的下标,dist存储的是相对于父节点的距离
int father[MAXNUM],dist[MAXNUM];
int n,m;

int find_father(int a)
{
    if(father[a]==a)return a;
    int tem = father[a];
    father[a]=find_father(father[a]);
    dist[a] += dist[tem];
    return father[a];
}

void union_set(int a,int b,int x)
{
    int ra = find_father(a);
    int rb = find_father(b);
    father[rb]=ra;
    dist[rb]=dist[a]+x-dist[b];
}
int main()
{
    int a,b,ra,rb,x,conflics;
    while(scanf("%d%d",&n,&m)!=EOF)
    {
        memset(dist,0,sizeof(dist));
        for(int i=0;i<=n;i++)
        father[i]=i;
        conflics=0;
        for(int i=0;i<m;i++)
        {
            scanf("%d%d%d",&a,&b,&x);
            ra = find_father(a);
            rb = find_father(b);
            if(ra==rb)
            {
                if(dist[b]-dist[a]!=x)conflics++;
            }
            if(ra!=rb)union_set(a,b,x);
        }
        printf("%d\n",conflics);
    }
    return 0;
}
复制代码

 

 











本文转自NewPanderKing51CTO博客,原文链接: http://www.cnblogs.com/newpanderking/archive/2012/10/31/2748567.html,如需转载请自行联系原作者

相关文章
|
测试技术
HDU-1232,畅通工程(并查集)
HDU-1232,畅通工程(并查集)
HDU-1874,畅通工程续(Floyd最短路)
HDU-1874,畅通工程续(Floyd最短路)
|
算法 机器学习/深度学习
|
人工智能 BI 存储
【HDU 4771 Stealing Harry Potter&#39;s Precious】BFS+状压
2013杭州区域赛现场赛二水。。。 类似“胜利大逃亡”的搜索问题,有若干个宝藏分布在不同位置,问从起点遍历过所有k个宝藏的最短时间。 思路就是,从起点出发,搜索到最近的一个宝藏,然后以这个位置为起点,搜索下一个最近的宝藏,直至找到全部k个宝藏。
1043 0