XYZZY(SPFA判正环)

该博客介绍了如何运用Floyd Warshall算法和SPFA(Shortest Path Faster Algorithm)来解决一种游戏路径规划问题。游戏中,玩家从起点开始,每进入一个房间会增加或减少能量,目标是判断能否在不耗尽能量的情况下到达终点。博主首先通过Floyd判断所有房间之间的连通性,然后使用SPFA判断是否存在能量增益的循环路径。如果存在这样的循环且能到达终点,或者在没有循环的情况下最长路径能量值大于0,则游戏可赢得。文章提供了具体实现代码并展示了样例输入和输出。

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It has recently been discovered how to run open-source software on the Y-Crate gaming device. A number of enterprising designers have developed Advent-style games for deployment on the Y-Crate. Your job is to test a number of these designs to see which are winnable. 
Each game consists of a set of up to 100 rooms. One of the rooms is the start and one of the rooms is the finish. Each room has an energy value between -100 and +100. One-way doorways interconnect pairs of rooms. 

The player begins in the start room with 100 energy points. She may pass through any doorway that connects the room she is in to another room, thus entering the other room. The energy value of this room is added to the player's energy. This process continues until she wins by entering the finish room or dies by running out of energy (or quits in frustration). During her adventure the player may enter the same room several times, receiving its energy each time. 

Input

The input consists of several test cases. Each test case begins with n, the number of rooms. The rooms are numbered from 1 (the start room) to n (the finish room). Input for the n rooms follows. The input for each room consists of one or more lines containing: 

the energy value for room i 
the number of doorways leaving room i 
a list of the rooms that are reachable by the doorways leaving room i 
The start and finish rooms will always have enery level 0. A line containing -1 follows the last test case. 

Output

In one line for each case, output "winnable" if it is possible for the player to win, otherwise output "hopeless". 

Sample Input

5
0 1 2
-60 1 3
-60 1 4
20 1 5
0 0
5
0 1 2
20 1 3
-60 1 4
-60 1 5
0 0
5
0 1 2
21 1 3
-60 1 4
-60 1 5
0 0
5
0 1 2
20 2 1 3
-60 1 4
-60 1 5
0 0
-1
Sample Output

hopeless
hopeless
winnable
winnable

题意:从第一个房间开始有100的初始能量。每经过一个房间加上此房间的能量值,如果能量为负或者到达终点则停止。问能不能到达终点。

题解:首先先用Floyd判断连通性,如果不连通则结束。如果联通用spfa判断有没有正环,即cnt[v]>=n则有正环,有正环判断环上一点到终点是否联通。没有环的话,则判断到达终点最长的通路能量值是否大于0即可。

#include <iostream>
#include <cstdio>
#include <algorithm>
#include <vector>
#include <cstring>
#include <queue>
using namespace std;
const int maxn = 105;
const int INF = 0x3f3f3f3f;
int n;
int energy[maxn];
int power[maxn];   //记录到每一点的力量值
int cnt[maxn];   //记录访问每一个点的次数
bool g[maxn][maxn];
bool reach[maxn][maxn];
void floyd()
{
    for(int k = 1; k<=n; k++)
        for(int i = 1; i<=n; i++)
            for(int j = 1; j<=n; j++)
            if(reach[i][j]||(reach[i][k]&&reach[k][j])) reach[i][j] = true;
}
bool spfa(int s)
{
    queue<int> q;
    memset(power,0,sizeof(power));
    power[s] = 100;
    memset(cnt,0,sizeof(power));
    q.push(s);
    while(!q.empty())
    {
        int v = q.front();
        q.pop();
        cnt[v]++;
        if(cnt[v]>=n) return reach[v][n]; //有正环
        for(int i = 1; i<=n; i++)
        {
            if(g[v][i]&&power[i]<power[v]+energy[i]&&power[v]+energy[i]>0)
            {
                power[i] = power[v]+energy[i];

                q.push(i);
            }
        }
    }
    return power[n]>0;

}
void solve()
{
    while(scanf("%d",&n)!=EOF&&n!=-1)
    {
        memset(g,false,sizeof(g));
        memset(reach,false,sizeof(reach));
        for(int i = 1; i<=n; i++)
        {
            int k,door;
            scanf("%d %d",&energy[i],&k);
            for(int j = 1; j<=k; j++)
            {
                scanf("%d",&door);
                g[i][door] = true;
                reach[i][door] = true;
            }
        }
        floyd();
        if(!reach[1][n])
        {
            printf("hopeless\n");
            continue;
        }
        if(spfa(1))
        {
            printf("winnable\n");
        }
        else
        {
            printf("hopeless\n");
        }
    }
}
int main()
{
    solve();
    return 0;
}

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