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POJ——T1679 The Unique MST
http://poj.org/problem?id=1679
| Time Limit: 1000MS | Memory Limit: 10000K | |
| Total Submissions: 30120 | Accepted: 10778 |
Description
Given a connected undirected graph, tell if its minimum spanning tree is unique.
Definition 1 (Spanning Tree): Consider a connected, undirected graph G = (V, E). A spanning tree of G is a subgraph of G, say T = (V‘, E‘), with the following properties:
1. V‘ = V.
2. T is connected and acyclic.
Definition 2 (Minimum Spanning Tree): Consider an edge-weighted, connected, undirected graph G = (V, E). The minimum spanning tree T = (V, E‘) of G is the spanning tree that has the smallest total cost. The total cost of T means the sum of the weights on all the edges in E‘.
Definition 1 (Spanning Tree): Consider a connected, undirected graph G = (V, E). A spanning tree of G is a subgraph of G, say T = (V‘, E‘), with the following properties:
1. V‘ = V.
2. T is connected and acyclic.
Definition 2 (Minimum Spanning Tree): Consider an edge-weighted, connected, undirected graph G = (V, E). The minimum spanning tree T = (V, E‘) of G is the spanning tree that has the smallest total cost. The total cost of T means the sum of the weights on all the edges in E‘.
Input
The first line contains a single integer t (1 <= t <= 20), the number of test cases. Each case represents a graph. It begins with a line containing two integers n and m (1 <= n <= 100), the number of nodes and edges. Each of the following m lines contains a triple (xi, yi, wi), indicating that xi and yi are connected by an edge with weight = wi. For any two nodes, there is at most one edge connecting them.
Output
For each input, if the MST is unique, print the total cost of it, or otherwise print the string ‘Not Unique!‘.
Sample Input
23 31 2 12 3 23 1 34 41 2 22 3 23 4 24 1 2
Sample Output
3Not Unique!
Source
POJ Monthly--2004.06.27 srbga@POJ
很坎坷的一道题:在知道要用次小生成树之后,先去学的次小生成树,然后就WA了一上午,下午继续看~继续WA,
最后在NINE 大佬纠正下,把42行的return -1改成了return ans~就A了,~~QAQ
1 #include <algorithm> 2 #include <cstdio> 3 4 using namespace std; 5 6 const int N(10001); 7 int num,n,m; 8 int fa[N],cnt; 9 int Fir,MST;10 int u,v,w,used[N];11 struct Edge12 {13 int u,v,w;14 } edge[N<<1];15 16 bool cmp(Edge a,Edge b)17 {18 return a.w<b.w;19 }20 21 int find(int x)22 {23 return fa[x]==x?x:fa[x]=find(fa[x]);24 }25 26 int Kruskal()27 {28 int ans=0; cnt=0;29 sort(edge+1,edge+m+1,cmp);30 for(int i=1; i<=n; i++) fa[i]=i;31 for(int i=1; i<=m; i++)32 {33 int fx=find(edge[i].u),fy=find(edge[i].v);34 if(fx!=fy)35 {36 fa[fx]=fy;37 used[++cnt]=i;38 ans+=edge[i].w;39 }40 if(cnt==n-1) return ans;41 }42 return ans;43 }44 45 int SecKru(int cant)46 {47 int ans=0; cnt=0;48 for(int i=1;i<=n;i++) fa[i]=i;49 for(int i=1;i<=m;i++) 50 {51 if(cant==i) continue;52 int fx=find(edge[i].u),fy=find(edge[i].v);53 if(fx!=fy)54 {55 cnt++;56 fa[fx]=fy;57 ans+=edge[i].w;58 }59 if(cnt==n-1) return ans;60 }61 return 0x7fffffff;62 }63 64 int main() 65 {66 scanf("%d",&num);67 for(;num--;)68 {69 scanf("%d%d",&n,&m);70 for(int i=1;i<=m;i++) 71 scanf("%d%d%d",&edge[i].u,&edge[i].v,&edge[i].w);72 Fir=Kruskal(); MST=0x7fffffff;73 for(int i=1;i<n;i++)74 {75 MST=min(SecKru(used[i]),MST);76 }77 if(Fir==MST)78 printf("Not Unique!\n");79 else printf("%d\n",Fir);80 }81 return 0;82 }
POJ——T1679 The Unique MST
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