Tangled in Cables
| Time Limit: 1000MS | Memory Limit: 30000K | |
| Total Submissions: 6348 | Accepted: 2505 |
Description
You are the owner of SmallCableCo and have purchased the franchise rights for a small town. Unfortunately, you lack enough funds to start your business properly and are relying on parts you have found in an old warehouse you bought. Among your finds is a single spool of cable and a lot of connectors. You want to figure out whether you have enough cable to connect every house in town. You have a map of town with the distances for all the paths you may use to run your cable between the houses. You want to calculate the shortest length of cable you must have to connect all of the houses together.
Input
Only one town will be given in an input.
< house name A > < house name B > < distance >
Where the two house names match two different names in the list above and the distance is a positive real number. There will not be two paths between the same pair of houses.
- The first line gives the length of cable on the spool as a real number.
- The second line contains the number of houses, N
- The next N lines give the name of each house's owner. Each name consists of
up to 20 characters {a–z,A–Z,0–9} and contains no whitespace or punctuation.
- Next line: M, number of paths between houses
- next M lines in the form
< house name A > < house name B > < distance >
Where the two house names match two different names in the list above and the distance is a positive real number. There will not be two paths between the same pair of houses.
Output
The output will consist of a single line. If there is
not enough cable to connect all of the houses in the town, output
Not enough cable
If there is enough cable, then output
Need < X > miles of cable
Print X to the nearest tenth of a mile (0.1).
Not enough cable
If there is enough cable, then output
Need < X > miles of cable
Print X to the nearest tenth of a mile (0.1).
Sample Input
100.0 4 Jones Smiths Howards Wangs 5 Jones Smiths 2.0 Jones Howards 4.2 Jones Wangs 6.7 Howards Wangs 4.0 Smiths Wangs 10.0
Sample Output
Need 10.2 miles of cable
Source
POJ2075 Tangled in Cables 最小生成树
题目大意:
给你一些人名,然后给你n条连接这些人名所拥有的房子的路,求用最小的代价求连接这些房子的花费是否满足要求。
#include<cstdio> #include<cstring> #include<string> #include<map> #include<algorithm> #include<iostream> using namespace std; #define N 15010 map<string,int>ad; struct node{ int x,y; double v; node(int x=0,int y=0,double v=0):x(x),y(y),v(v){} }e[N]; int n,m,fa[N];double money; int find(int x){ return fa[x]==x?x:fa[x]=find(fa[x]); } bool cmp(const node &a,const node &b){ return a.v<b.v; } int main(){ freopen("sh.in","r",stdin); scanf("%lf%d",&money,&n); for(int i=1;i<=n;i++){ char str[60]; scanf("%s",str); ad[str]=i; } scanf("%d",&m); for(int i=1;i<=m;i++){ char c1[60],c2[60]; double cost; scanf("%s %s %lf",c1,c2,&cost); e[i].x=ad[c1]; e[i].y=ad[c2]; e[i].v=cost; } sort(e+1,e+m+1,cmp); double ans=0;int k=0; for(int i=1;i<=n;i++) fa[i]=i; for(int i=1;i<=m;i++){ int fx=find(e[i].x),fy=find(e[i].y); if(fx!=fy){ fa[fy]=fx; ans+=e[i].v; k++; } if(k==n-1) break; } if(money>ans) printf("Need %.1lf miles of cable ",ans); else printf("Not enough cable "); return 0; }