• hdoj 4183 Pahom on Water


    Pahom on Water

    Time Limit: 2000/1000 MS (Java/Others)    Memory Limit: 32768/32768 K (Java/Others)
    Total Submission(s): 772    Accepted Submission(s): 355


    Problem Description
    Pahom on Water is an interactive computer game inspired by a short story of Leo Tolstoy about a poor man who, in his lust for land, forfeits everything. The game's starting screen displays a number of circular pads painted with colours from the visible light spectrum. More than one pad may be painted with the same colour (defined by a certain frequency) except for the two colours red and violet. The display contains only one red pad (the lowest frequency of 400 THz) and one violet pad (the highest frequency of 789 THz). A pad may intersect, or even contain another pad with a different colour but never merely touch its boundary. The display also shows a figure representing Pahom standing on the red pad.
    The game's objective is to walk the figure of Pahom from the red pad to the violet pad and return back to the red pad. The walk must observe the following rules:
    1.If pad α and pad β have a common intersection and the frequency of the colour of pad α is strictly smaller than the frequency of the colour of pad β, then Pahom figure can walk from α to β during the walk from the red pad to the violet pad
    2. If pad α and pad β have a common intersection and the frequency of the colour of pad α is strictly greater than the frequency of the colour of pad β, then Pahom figure can walk from α to β during the walk from the violet pad to the red pad
    3. A coloured pad, with the exception of the red pad, disappears from display when the Pahom figure walks away from it.
    The developer of the game has programmed all the whizzbang features of the game. All that is left is to ensure that Pahom has a chance to succeed in each instance of the game (that is, there is at least one valid walk from the red pad to the violet pad and then back again to the red pad.) Your task is to write a program to check whether at least one valid path exists in each instance of the game.
     
    Input
    The input starts with an integer K (1 <= K <= 50) indicating the number of scenarios on a line by itself. The description for each scenario starts with an integer N (2 <= N <= 300) indicating the number of pads, on a line by itself, followed by N lines that describe the colors, locations and sizes of the N pads. Each line contains the frequency, followed by the x- and y-coordinates of the pad's center and then the radius. The frequency is given as a real value with no more than three decimal places. The coordinates and radius are given, in meters, as integers. All values are separated by a single space. All integer values are in the range of -10,000 to 10,000 inclusive. In each scenario, all frequencies are in the range of 400.0 to 789.0 inclusive. Exactly one pad will have a frequency of “400.0” and exactly one pad will have a frequency of “789.0”.
     
    Output
    The output for each scenario consists of a single line that contains: Game is VALID, or Game is NOT VALID
     
    Sample Input
    2
    2
    400.0 0 0 4
    789.0 7 0 2
    4
    400.0 0 0 4
    789.0 7 0 2
    500.35 5 0 2
    500.32 5 0 3
     
    Sample Output
    Game is NOT VALID
    Game is VALID
     
    题意:一个电脑游戏,有各种颜色的光圈,题目要求你从红色光圈到紫色光圈再回到红色光圈(中间可已经经过其他颜色的光圈)光圈形状为圆形
    要求:1、如果两个光圈相交,则可以从光谱大的走到光谱小的
    2、紫色光圈和红色光圈可以走两次,别的颜色的只能走一次
    问是否能够实现要求
    题解:建立超级源点0,超级汇点n+1
    1、紫色光圈连接源点权值为2
    2、红色光圈连接汇点权值为2
    3、其他颜色光圈  光谱大的连接到光谱小的,权值为1;
    如果最大流为2则可以完成,
     
    #include<stdio.h>
    #include<string.h>
    #include<math.h>
    #include<queue>
    #include<stack>
    #include<algorithm>
    #define INF 0x7ffffff
    #define MAX 10010
    #define MAXM 100100
    #define eps 1e-5
    #define DD double
    using namespace std;
    DD pad[MAX],x[MAX],y[MAX],r[MAX];
    struct node
    {
    	int from,to,cap,flow,next;
    }edge[MAXM];
    int vis[MAX],dis[MAX];
    int cur[MAX];
    int head[MAX],ans;
    void init()
    {
    	ans=0;
    	memset(head,-1,sizeof(head));
    }
    void add(int u,int v,int w)
    {
    	edge[ans]={u,v,w,0,head[u]};
    	head[u]=ans++;
    	edge[ans]={v,u,0,0,head[v]};
    	head[v]=ans++;
    }
    int judge(int i,int j)//判断两个光谱是否相交 
    {
    	if((sqrt((x[i]-x[j])*(x[i]-x[j])+(y[i]-y[j])*(y[i]-y[j]))-r[i]-r[j])<0)
    		return 1;
    	return 0;
    }
    int bfs(int beg,int end)
    {
    	memset(vis,0,sizeof(vis));
    	memset(dis,-1,sizeof(dis));
    	queue<int>q;
    	while(!q.empty())
    	    q.pop();
    	q.push(beg);
    	vis[beg]=1;
    	dis[beg]=0;
    	while(!q.empty())
    	{
    		int u=q.front();
    		q.pop();
    		for(int i=head[u];i!=-1;i=edge[i].next)
    		{
    			node E=edge[i];
    			if(!vis[E.to]&&E.cap>E.flow)
    			{
    				dis[E.to]=dis[u]+1;
    				vis[E.to]=1;
    				if(E.to==end) return 1;
    				q.push(E.to);
    			}
    		}
    	}
    	 return 0;
    }
    int dfs(int x,int a,int end)
    {
    	if(a==0||x==end)
    	    return a;
    	int flow=0,f;
    	for(int &i=cur[x];i!=-1;i=edge[i].next)
    	{
    		node& E=edge[i];
    		if(dis[E.to]==dis[x]+1&&(f=dfs(E.to,min(a,E.cap-E.flow),end))>0)
    		{
    			E.flow+=f;
    			edge[i^1].flow-=f;
    			flow+=f;
    			a-=f;
    			if(a==0) break;
    		}
    	}
    	return flow;
    }
    int Maxflow(int beg,int end)
    {
    	int flow=0;
    	while(bfs(beg,end))
    	{
    		memcpy(cur,head,sizeof(head));
    		flow+=dfs(beg,INF,end);
    	}
    	return flow;
    }
    int main()
    {
    	int t,n,m,i,j;
    	scanf("%d",&t);
    	while(t--)
    	{
    		scanf("%d",&n);
    		init();
    		for(i=1;i<=n;i++)
    			scanf("%lf%lf%lf%lf",&pad[i],&x[i],&y[i],&r[i]);
            for(i=1;i<=n;i++)
            {
            	if(fabs(pad[i]-789.0)<=eps)//紫色光圈连接源点 
            	add(0,i,2);
            	if(fabs(pad[i]-400.0)<=eps)//红则光谱连接汇点 
            	add(i,n+1,2);
            	for(j=1;j<=n;j++)
            	{
            		if(i!=j)//判断到同一个光圈时跳过 
            		{
            			if(judge(i,j)&&pad[i]>pad[j])//光圈相交且第一个的光普大 
            			{
            				add(i,j,1);
            			}
            		}
            	}
            }
            if(Maxflow(0,n+1)==2)
                printf("Game is VALID
    ");
            else
                printf("Game is NOT VALID
    ");
    	}
    	return 0;
    }
    

      

  • 相关阅读:
    很久以前写的一个功能测试用例
    中外白领和无领的一天
    Five bugs in five minutes...
    Oracle SQL 性能优化技巧
    10款常用Java测试工具[转载]
    AJAX、AJAX实例及AJAX源代码(asp)
    各大银行的暗示[笑话]
    Tomcat集群与负载均衡(转载)
    简述CMMI2级的7个PA
    全面介绍单元测试 -转贴
  • 原文地址:https://www.cnblogs.com/tonghao/p/4953903.html
Copyright © 2020-2023  润新知