Time Limit: 2000MS | Memory Limit: 65536K | |
Total Submissions: 29971 | Accepted: 10844 |
Description
While exploring his many farms, Farmer John has discovered a number of amazing wormholes. A wormhole is very peculiar because it is a one-way path that delivers you to its destination at a time that is BEFORE you entered the wormhole! Each of FJ's farms
comprises N (1 ≤ N ≤ 500) fields conveniently numbered 1..N, M (1 ≤ M ≤ 2500) paths, and W (1 ≤ W ≤ 200) wormholes.
As FJ is an avid time-traveling fan, he wants to do the following: start at some field, travel through some paths and wormholes, and return to the starting field a time before his initial departure. Perhaps he will be able to meet himself :) .
To help FJ find out whether this is possible or not, he will supply you with complete maps to F (1 ≤ F ≤ 5) of his farms. No paths will take longer than 10,000 seconds to travel and no wormhole can bring FJ back in time by more than 10,000
seconds.
Input
Line 1 of each farm: Three space-separated integers respectively: N, M, and W
Lines 2..M+1 of each farm: Three space-separated numbers (S, E, T) that describe, respectively: a bidirectional path between S and E that requires T seconds to traverse. Two fields might be connected
by more than one path.
Lines M+2..M+W+1 of each farm: Three space-separated numbers (S, E, T) that describe, respectively: A one way path from S to E that also moves the traveler back T seconds.
Output
Sample Input
2
3 3 1
1 2 2
1 3 4
2 3 1
3 1 3
3 2 1
1 2 3
2 3 4
3 1 8
Sample Output
NO
YES
Hint
For farm 2, FJ could travel back in time by the cycle 1->2->3->1, arriving back at his starting location 1 second before he leaves. He could start from anywhere on the cycle to accomplish this.
Source
解题思路:
这题什么意思读了半天也没弄懂。。在POJ上做题头一大难关就是读题意。。。
农民有N块地,每块地看做一个节点,有m条普通的路(双向),连接着两个节点,从一端走到还有一端须要w时间(权值),还有wh条特殊的单向路,也就是题意中的虫洞,虫洞也连接着两个节点,但虫洞是单向的,从起点走到终点须要w时间,但这个时间是负的,也就是题意中所说的时光倒流,比方 一个虫洞连接着s -> e,在s处如果时间为6,走虫洞时间为4,那么走过去时光倒流,走到e时时间就变为了2 (6 -4,也就是虫洞这条路的权值为 -4 ) ,好奇妙。。。。问有没有这样一种情况,就是第二次走到某个节点的时间比第一次走到该节点所用的时间短(题中的Perhaps
he will be able to meet himself,时光倒流的作用)。如果存在这样的情况,那么以某节点为起点和终点一定存在着一个回路,这个回路的权值是负的,这样第二次所用的时间一定比第一次少。
bellman-ford求最短路径算法中的第三步就是推断一个图(有向图,或无向图)中是否存在负权回路。
bellman-ford算法參考:http://blog.csdn.net/niushuai666/article/details/6791765
代码:
#include <iostream>
#include <iostream>
using namespace std;
const int inf=10010;
const int maxn=6000; struct Edge//边结构体
{
int s,e,w;
}edge[maxn]; int dis[maxn];//到达各顶点的距离
int nodeNum,edgeNum;//节点个数,边个数 bool bellman_ford()
{
for(int i=0;i<=nodeNum;i++)
dis[i]=inf;//初始化
bool ok;//推断是否发生了松弛
for(int i=1;i<=nodeNum-1;i++)
{
ok=0;
for(int j=1;j<=edgeNum;j++)
{
if(dis[edge[j].s]+edge[j].w<dis[edge[j].e])
{
dis[edge[j].e]=dis[edge[j].s]+edge[j].w;
ok=1;
}
}
if(!ok)//没有发生松弛,及时退出
break;
}
for(int i=1;i<=edgeNum;i++)//寻找负权回路
if(dis[edge[i].s]+edge[i].w<dis[edge[i].e])
return true;//存在负权回路
return false;
} int main()
{
int t;cin>>t;
int n,m,wh;
while(t--)
{
cin>>n>>m>>wh;//n为节点,m为双向边,wh为单向边
nodeNum=n;
edgeNum=m*2+wh;
int cnt=1;
int s,e,w;//起点,终点,权值
for(int i=1;i<=m;i++)
{
cin>>s>>e>>w;
edge[cnt].s=s;
edge[cnt].e=e;
edge[cnt++].w=w;
edge[cnt].s=e;
edge[cnt].e=s;
edge[cnt++].w=w;
}
for(int i=1;i<=wh;i++)
{
cin>>s>>e>>w;
edge[cnt].s=s;
edge[cnt].e=e;
edge[cnt++].w=-w;//注意是负权
}
if(bellman_ford())//存在负权回路
cout<<"YES"<<endl;
else
cout<<"NO"<<endl;
}
return 0;
}